9.2.2 FDD Specific Parameters

25.4233GPPRelease 17TSUTRAN Iur interface Radio Network Subsystem Application Part (RNSAP) signalling

Tools: ARFCN - Frequency Conversion for 5G NR/LTE/UMTS/GSM

This subclause contains parameters that are specific to FDD.

9.2.2.a ACK-NACK Repetition Factor

The ACK-NACK Repetition Factor IE indicates the consecutive repetition of the ACK and NACK.

IE/Group Name	Presence	Range	IE type and reference	Semantics description
ACK-NACK Repetition Factor			INTEGER (1..,4,…)	Step: 1.

9.2.2.b ACK Power Offset

The ACK Power Offset IE indicates Power offset used in the UL between the HS-DPCCH slot carrying HARQ ACK information and the associated DPCCH.

IE/Group Name	Presence	Range	IE type and reference	Semantics description
ACK Power Offset			INTEGER (0..8,…, 9..10)	According to mapping in TS 25.213 [21] subclause 4.2.1.

9.2.2.A Active Pattern Sequence Information

Defines the parameters for the compressed mode gap pattern sequence activation. For details see TS 25.331 [16].

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
CM Configuration Change CFN	M		CFN 9.2.1.9		–
Transmission Gap Pattern Sequence Status		0.. <maxTGPS>		If the group is not present, none of the pattern sequences are activated.	–
>TGPSI Identifier	M		INTEGER(1..<MaxTGPS>)	Establish a reference to the compressed mode pattern sequence. Up to <MaxTGPS> simultaneous compressed mode pattern sequences can be activated.	–
>TGPRC	M		INTEGER(0..511)	The number of transmission gap patterns within the Transmission Gap Pattern Sequence. 0=Infinity.	–
>TGCFN	M		CFN 9.2.1.9	Connection Frame Number of the first frame of the first pattern 1 within the Transmission Gap Pattern Sequence.	–
>Affected HS-DSCH serving cell List		0..<maxNrOfHSDSCH>		The HS-DSCH serving cells affected by the TGPS when activating frequency specific compressed mode. Max 4 in this 3GPP release.	EACH	reject
>>C-ID	M		9.2.1.6		–

Range bound	Explanation
maxTGPS	Maximum number of active pattern sequences. Value 6.
maxNrOfHSDSCH	Maximum number of Primary Serving plus Secondary Serving HS-DSCH cells for one UE.

9.2.2.B Adjustment Period

Adjustment Period IE defines the period to be used for power balancing.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Adjustment Period

INTEGER

(1 .. 256)

Unit: Frames.

9.2.2.C Adjustment Ratio

Adjustment Ratio IE (Radj) defines the convergence rate used for the associated Adjustment Period.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Adjustment Ratio

INTEGER

(0 .. 100)

The Adjustment Ratio is given with a granularity of 0.01

0 -> 0.00

1 -> 0.01

…

100 -> 1.00

9.2.2.Ca Bundling Mode Indicator

The Bundling Mode Indicator indicates whether the bundling shall be done or shall not be done for Iur.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Bundling Mode Indicator

ENUMERATED (

Bundling, No bundling)

The value “Bundling” is applicable only when E-TTI indicates “2ms”.

9.2.2.D Cell Capability Container FDD

The Cell Capability Container FDD indicates which functionalities a cell supports.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Cell Capability Container FDD

BIT STRING (SIZE(32))

Each bit indicates whether a cell supports a particular functionality or not. The value 1 of a bit indicates that the corresponding functionality is supported in a cell and value 0 indicates that the corresponding functionality is not supported in a cell. Each bit is defined as follows.

The first bit:Reserved.

The second bit: Delayed Activation Support Indicator.

The third bit: HS-DSCH Support Indicator.

The fourth bit:Reserved.

The fifth bit: F-DPCH Support Indicator.

The sixth bit: E-DCH Support Indicator.

The seventh bit: E-DCH TTI2ms Support Indicator.

The eighth bit: E-DCH 2sf2and2sf4 and all inferior SFs Support Indicator.

The ninth bit: E-DCH 2sf2 and all inferior SFs Support Indicator.

The tenth bit: E-DCH 2sf4 and all inferior SFs Support Indicator.

The eleventh bit: E-DCH sf4 and all inferior SFs Support Indicator.

The twelveth bit: E-DCH sf8 and all inferior SFs Support Indicator.

The thirteenth bit: E-DCH HARQ IR Combining Support Indicator.

The fourteenth bit: E-DCH HARQ Chase Combining Support Indicator.

The fifteenth bit: Continuous Packet Connectivity DTX-DRX Support Indicator.

The sixteenth bit: Continuous Packet Connectivity HS-SCCH less Support Indicator.

The seventeenth bit: MIMO Support Indicator.

The eighteenth bit: SixteenQAM UL Support Indicator.

The nineteenth bit: Flexible MAC-d PDU Size Support Indicator.

The twentieth bit: F-DPCH Slot Format Support Indicator.

The twentyfirst bit: SixtyfourQAM DL Support Indicator.

The twentysecond bit: Flexible E-DCH MAC-d PDU Size Support Indicator.

The twentythird bit: E-DPCCH Power Boosting Support Indicator.

The twentytfourth bit: SixtyfourQAM DL and MIMO Combined Support Indicator.

This bit shall not be set to 1 if SixtyfourQAM DL Support Indicator is set to 0 or MIMO Support Indicator is set to 0.

The twentyfifth bit: Multi Cell Support Indicator

The twentysixth bit: MBMS Support Indicator.

The twentyseventh bit: TX Diversity on DL Control Channels by MIMO Capable UE when MIMO operation is Active Support Indicator.

The twentyeighth bit: Dual Band HS-DSCH Support Indicator

The twentyninth bit: Single Stream MIMO Support Indicator.

The thirtieth bit:

Preferred Precoding Weight Set Restriction Support Indicator. (See TS 25.331 [16], the value 1 indicates preferred).

The thirtyfirst bit: Dual Band E-DCH Support Indicator.

Note that undefined bits are considered as a spare bit and spare bits shall be set to 0 by the transmitter and shall be ignored by the receiver. Note that Reserved bits are not considered as a spare bit. They shall however be set to 0 by the transmitter and shall be ignored by the receiver.

9.2.2.E Cell Portion ID

Cell Portion ID is the unique identifier for a cell portion within a cell. See TS 25.215 [11].

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Cell Portion ID			INTEGER (0..63,…)

9.2.2.1 Chip Offset

The Chip Offset is defined as the radio timing offset inside a radio frame. The Chip Offset is used as offset for the DL DPCH relative to the Primary CPICH timing for the DL DPCH or for the F-DPCH.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Chip Offset

INTEGER

(0..38399)

Unit: Chips.

9.2.2.2 Closed Loop Mode1 Support Indicator

The Closed Loop Mode1 Support Indicator indicates whether the particular cell is capable to support Closed loop mode1 or not

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Closed Loop Mode1 Support Indicator			ENUMERATED(Closed loop mode1 Supported, Closed loop mode1 not supported).

9.2.2.3 Closed Loop Mode2 Support Indicator

Void.

9.2.2.3A Closed Loop Timing Adjustment Mode

Indicates when the phase/amplitude adjustment is performed in the DL in relation to the receipt of the UL feedback command in case of closed loop mode transmit diversity on DPCH.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Closed Loop Timing Adjustment Mode

ENUMERATED(Offset1, Offset2,…)

According to TS 25.214 [10] subclause 7.1:

Offset1 = slot(j+1)mod15

Offset2 = slot(j+2)mod15

9.2.2.4 Compressed Mode Method

Void

9.2.2.4A DCH FDD Information

The DCH FDD Information IE provides information for DCHs to be established.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
DCH FDD Information		1..<maxNrOfDCHs>			–
>Payload CRC Presence Indicator	M		Payload CRC Present Indicator 9.2.1.42		–
>UL FP Mode	M		9.2.1.67		–
>ToAWS	M		9.2.1.58		–
>ToAWE	M		9.2.1.57		–
>DCH Specific Info		1..<maxNrOfDCHs>			–
>>DCH ID	M		9.2.1.16		–
>>TrCH Source Statistics Descriptor	M		9.2.1.65		–
>>Transport Format Set	M		9.2.1.64	For the UL.	–
>>Transport Format Set	M		9.2.1.64	For the DL.	–
>>BLER	M		9.2.1.4	For the UL.	–
>>BLER	M		9.2.1.4	For the DL.	–
>>Allocation/Retention Priority	M		9.2.1.1		–
>>Frame Handling Priority	M		9.2.1.29		–
>>QE-Selector	M		9.2.1.46A		–
>>DRAC Control	M		9.2.2.13		–
>>Guaranteed Rate Information	O		9.2.1.30M		YES	ignore
>>Traffic Class	M		9.2.1.58A		YES	ignore
>>Unidirectional DCH Indicator	O		9.2.1.68B		YES	reject
>TNL QoS	O		9.2.1.56A		YES	ignore

Range bound	Explanation
maxNrOfDCHs	Maximum number of DCHs for one UE.

9.2.2.4B E-DCH FDD Information

The E-DCH FDD Information IE provides information for an E-DCH to be established.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
E-DCH MAC-d Flows Information	M		9.2.2.4MC		–
HARQ Process Allocation For 2ms Scheduled Transmission Grant	O		HARQ Process Allocation for 2ms TTI 9.2.2.4O	If this IE is not included, scheduled transmission in all HARQ processes is allowed.	–
E-DCH Maximum Bitrate	O		9.2.2.4MG		–
E-DCH Processing Overload Level	O		9.2.1.95		–
E-DCH Reference Power Offset	O		9.2.2.4MI		–
E-DCH Power Offset for Scheduling Info	O		9.2.1.96		YES	ignore
SixteenQAM UL Operation Indicator	O		9.2.2.90		YES	reject
E-AGCH Table Choice	C- SixteenQAM UL Operation		9.2.2.61A	If the SixteenQAM UL operation is not configured for this UE, Table 16B for E-AGCH in TS 25.212 [9] shall be used.	YES	ignore
SixtyfourQAM UL Operation Indicator	O		9.2.2.90a		YES	reject
UL MIMO Information	O		9.2.2.159		YES	reject
UPH Filtering Measurement Forwarding Request	O		ENUMERATED (Requested, Not Requested)		YES	reject

Condition	Explanation
SixteenQAM UL Operation	The IE shall be present if the SixteenQAM UL Operation Indicator IE is set to “Activate”.

9.2.2.4C E-DCH FDD Information Response

The E-DCH FDD Information Response IE provides information for E-DCH MAC-d flows that have been established or modified. It also provides additional E-DCH information determined within the DRNS.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
E-DCH MAC-d Flow Specific Information Response		1..<maxNrOfEDCHMACdFlows>			–
>E-DCH MAC-d Flow ID	M		9.2.1.91	If only HARQ Process Allocation For 2ms Scheduled Transmission Grant IE and this IE (E-DCH MAC-d Flow ID) are present in the E-DCH FDD Information Response IE, the content of this IE shall be considered invalid.	–
>Binding ID	O		9.2.1.3		–
>Transport Layer Address	O		9.2.1.62		–
>HARQ Process Allocation For 2ms Non-Scheduled Transmission Grant	O		HARQ Process Allocation for 2ms TTI 9.2.2.4O		–
>Transport Bearer Not Setup Indicator	O		9.2.2.4T		YES	ignore
HARQ Process Allocation For 2ms Scheduled Transmission Grant	O		HARQ Process Allocation for 2ms TTI 9.2.2.4O		–
Fast TTI switching Mode Supported	O		9.2.2.186		YES	ignore

Range bound	Explanation
maxNrOfEDCHMACdFlows	Maximum number of E-DCH MAC-d flows.

9.2.2.4D E-DCH FDD DL Control Channel Information

The E-DCH FDD DL Control Channel Information IE provides information for E-DCH specific DL Control Channels to be provided to UE via RRC signalling.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
E-AGCH And E-RGCH/E-HICH FDD Scrambling Code	O		DL Scrambling Code 9.2.2.11	Scrambling code on which E-AGCH, E-RGCH and E-HICH are transmitted. 0= Primary scrambling code of the cell 1…15 = Secondary scrambling code.	–
E-AGCH Channelisation Code	O		FDD DL Channelisation Code Number 9.2.2.14		–
Primary E-RNTI	O		E-RNTI 9.2.1.94		–
Secondary E-RNTI	O		E-RNTI 9.2.1.94		–
E-RGCH/E-HICH Channelisation Code	M		FDD DL Channelisation Code Number 9.2.2.14		–
E-RGCH Signature Sequence	O		INTEGER (0..maxnoofSigSeqERGHICH-1)		–
E-HICH Signature Sequence	O		INTEGER (0..maxnoofSigSeqERGHICH-1)		–
Serving Grant Value	O		INTEGER (0..37,38)	(0..37) indicates E-DCH serving grant index as defined in TS 25.321 [41]; index 38 means zero grant.	–
Primary/Secondary Grant Selector	O		ENUMERATED (Primary, Secondary)	Indicates whether the Serving Grant Value is granted with a primary E-RNTI or a secondary E-RNTI.	–
E-RGCH Release Indicator	O		9.2.2.60		–
E-RGCH and E-HICH Channelisation Code Validity Indicator	O		9.2.2.68	Indicates whether the value of E-RGCH and E-HICH Channelisation Code is invalid.	YES	ignore
Default Serving Grant in DTX Cycle 2	O		INTEGER (0..37,38)	Serving Grant value to be used in DTX-Cycle-2. (0..37) indicates E-DCH serving grant index as defined in TS 25.425 [32]; index 38 means zero grant.	YES	ignore
UL MIMO DL Control Channel Information	O		9.2.2.162		YES	ignore

Range bound	Explanation
maxnoofSigSeqERGHICH	Maximum number Signature Sequences for E-RGCH / E-HICH.

9.2.2.4E E-DCH RL Indication

Indicates whether a RL is an E-DCH RL.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
E-DCH RL Indication			ENUMERATED(E-DCH, non E-DCH)

9.2.2.4F E-DCH FDD Information To Modify

The E-DCH FDD Information To Modify IE provides information for an E-DCH to be modified.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
E-DCH MAC-d Flow Specific Information		1..<maxNrOfEDCHMACdFlows>		See Note1 below.	–
>E-DCH MAC-d Flow ID	M		9.2.1.91		–
>Allocation/Retention Priority	O		9.2.1.1		–
>Transport Bearer Request Indicator	M		9.2.1.61		–
>TNL QoS	O		9.2.1.56A		–
>Maximum Number of Retransmissions for E-DCH	O		9.2.1.100		–
>Traffic Class	O		9.2.1.58A		–
>E-DCH HARQ Power Offset FDD	O		9.2.2.4L		–
>E-DCH MAC-d Flow Multiplexing List	O		9.2.1.89		–
>CHOICE E-DCH grant type	O
>>E-DCH Non-Scheduled Transmission Grant
>>>Maximum Number of Bits per MAC-e PDU for Non-scheduled Transmission	M		9.2.2.4N	If the Extended Maximum Number of Bits per MAC-e PDU for Non-scheduled Transmission IE is present, this IE shall be ignored. When Maximum MAC-d PDU Size Extended IE is configured for an E-DCH Logical Channel this IE indicates the maximum number of bits per MAC-I PDU.	–
>>>HARQ Process Allocation For 2ms Non-Scheduled Transmission Grant	O		HARQ Process Allocation for 2ms TTI 9.2.2.4O		–
>>>Extended Maximum Number of Bits per MAC-e PDU for Non-scheduled Transmission	O		9.2.2.4R	When Maximum MAC-d PDU Size Extended IE is configured for an E-DCH Logical Channel this IE indicates the extended maximum number of bits per MAC-I PDU.	YES	reject
>>E-DCH Scheduled Transmission Grant			NULL
>Bundling Mode Indicator	O		9.2.2.Ca		–
>E-DCH Logical Channel To Add	O		E-DCH Logical Channel Information 9.2.1.92		–
>E-DCH Logical Channel To Modify			9.2.1.93		–
>E-DCH Logical Channel To Delete		0..< maxNoOfLogicalChannels>			–
>>Logical Channel ID	M		9.2.1.97		–
HARQ Process Allocation For 2ms Scheduled Transmission Grant	O		HARQ Process Allocation for 2ms TTI 9.2.2.4O		–
E-DCH Maximum Bitrate	O		9.2.2.4MG		–
E-DCH Processing Overload Level	O		9.2.1.95		–
E-DCH Reference Power Offset	O		9.2.2.4MI		–
MAC-e Reset Indicator	O		9.2.1.99		–
E-DCH Power Offset for Scheduling Info	O		9.2.1.96		YES	ignore
SixteenQAM UL Operation Indicator	O		9.2.2.90		YES	reject
E-DCH MAC-d PDU Size Format	O		9.2.1.91A		YES	reject
E-DCH DL Control Channel Grant Information		0..<maxNrOfEDCHRLs>			GLOBAL	ignore
>E-DCH RL ID	M		RL ID 9.2.1.49		–
E-AGCH Table Choice	C- SixteenQAM UL Operation		9.2.2.61A	If sixteenQAM UL operation is not used in the new configuration for this UE, Table 16B for E-AGCH in TS 25.212 [9] shall be used in the new configuration.	YES	ignore
SixtyfourQAM UL Operation Indicator	O		9.2.2.90a		YES	reject
UL MIMO Reconfiguration	O		9.2.2.158		YES	reject
Fast TTI switching Mode Requested Synchronized	O		9.2.2.187		YES	reject
Fast TTI switching Mode Requested UnSynchronized	O		9.2.2.188		YES	reject
Note 1: Even if no E-DCH MAC-d Flow Specific Information needs to be modified, one E-DCH MAC-d Flow Information shall be included, which only contains the E-DCH MAC-d Flow ID IE and the Transport BearerRequest Indicator IE set to “Bearer not Requested”.

Condition	Explanation
SixteenQAM UL Operation	The IE shall be present if the SixteenQAM UL Operation Indicator IE is set to “Activate”.

Range bound	Explanation
maxNrOfEDCHMACdFlows	Maximum number of E-DCH MAC-d flows.
MaxNoOfLogicalChannels	Maximum number of Logical Channels.
maxNrOfEDCHRLs	Maximum number of E-DCH RLs for one UE.

9.2.2.4G E-DCH Transport Format Combination Set Information (E-TFCS Information)

Whereas the related Transport Block sizes are standardised in TS 25.321 [41] this IE gives details on the referenced Transport Block Size Table, the E-DCH Minimum Set E-TFCI, the Reference E-TFCIs and configuration parameters used for the calculation of the gain factors _ec and _ed defined in TS 25.214 [10].

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
E-TFCI Table Index	M		INTEGER (0..1,…, 2..7)	Indicates which standardised E-TFCS Transport Block Size Table shall be used. The related tables are specified in TS 25.321 [41].	–
E-DCH Minimum Set E-TFCI	M		INTEGER (0..127)	For the concept of “E-DCH Minimum Set of TFCs” see TS 25.321 [41] and TS 25.331 [16].	–
Reference E-TFCI Information		1..<maxNrOfRefETFCIs>			–
>Reference E-TFCI	M		INTEGER (0..127)		–
>Reference E-TFCI Power Offset	M		9.2.2.4P	If the Extended Reference E-TFCI Power Offset IE is present, this IE shall be ignored.	–
>Extended Reference E-TFCI Power Offset	O		9.2.2.4Q		YES	reject
E-DCH Minimum Set E-TFCI Validity Indicator	O		9.2.2.69	Indicates whether the value of E-DCH Minimum Set E-TFCI is invalid.	YES	reject
E-TFCI Boost Information	O		9.2.2.91		YES	reject
E-DPDCH Power Interpolation	O		BOOLEAN	True means that the E-DPDCH power interpolation formula shall be applied, False means that the E-DPDCH power extrapolation formula shall be applied for the computation of the gain factor _ed according to TS 25.214 [10].	YES	reject

Range Bound	Explanation
maxNrOfRefETFCIs	Maximum number of signalled reference E-TFCIs.

9.2.2.4J E-TTI

The E-TTI parameter indicates the Transmission Time Interval for E-DPCH operation.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
E-TTI			ENUMERATED (2ms, 10ms)

9.2.2.4K E-DPCCH Power Offset

The E-DPCCH Power Offset is used to calculate the E-DPCCH gain factor _ec as defined in TS 25.214 [10], whereas _ec is related to the power difference between DPCCH and E-DPCCH.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
E-DPCCH Power Offset			INTEGER (0..8)	According to mapping in TS 25.213 [21] subclause 4.2.1.3.

9.2.2.4KA Void

9.2.2.4L E-DCH HARQ Power Offset FDD

The E-DCH HARQ Power Offset FDD is used to calculate the unquantised gain factor for an E-TFC (_ed,j,uq)as defined in TS 25.214 [10].

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
E-DCH HARQ Power Offset FDD			INTEGER (0..6)	According to mapping in TS 25.213 [21] subclause 4.2.1.3.

9.2.2.4M Void

9.2.2.4MA Void

9.2.2.4MB Void

9.2.2.4MC E-DCH MAC-d Flows Information

The E-DCH MAC-d Flows Information IE is used for the establishment of E-DCH MAC-d flows.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
E-DCH MAC-d Flow Specific Information		1..<maxNrOfEDCHMACdFlows>			–
>E-DCH MAC-d Flow ID	M		9.2.1.91		–
>Allocation/Retention Priority	O		9.2.1.1		–
>TNL QoS	O		9.2.1.56A		–
>Payload CRC Presence Indicator	M		Payload CRC Present Indicator 9.2.1.42		–
>Maximum Number of Retransmissions for E-DCH	M		9.2.1.100		–
>Traffic Class	M		9.2.1.58A		–
>E-DCH HARQ Power Offset FDD	M		9.2.2.4L		–
>E-DCH MAC-d Flow Multiplexing List	O		9.2.1.89		–
>CHOICE E-DCH grant type	M				–
>>E-DCH Non-Scheduled Transmission Grant
>>>Maximum Number of Bits per MAC-e PDU for Non-scheduled Transmission	M		9.2.2.4N	If the Extended Maximum Number of Bits per MAC-e PDU for Non-scheduled Transmission IE is present, this IE shall be ignored. When Maximum MAC-d PDU Size Extended IE is configured for an E-DCH Logical Channel this IE indicates the maximum number of bits per MAC-I PDU.	–
>>>HARQ Process Allocation For 2ms Non-Scheduled Transmission Grant	O		HARQ Process Allocation for 2ms TTI 9.2.2.4O	If this IE is not included, transmission in all HARQ processes is allowed.	–
>>>Extended Maximum Number of Bits per MAC-e PDU for Non-scheduled Transmission	O		9.2.2.4R	When Maximum MAC-d PDU Size Extended IE is configured for an E-DCH Logical Channel this IE indicates the extended maximum number of bits per MAC-I PDU.	YES	reject
>>E-DCH Scheduled Transmission Grant			NULL
>Bundling Mode Indicator	O		9.2.2.Ca		–
>E-DCH Logical Channel Information	M		9.2.1.92		–
>TrCH Source Statistics Descriptor	O		9.2.1.65		YES	ignore

Range bound	Explanation
maxNrOfEDCHMACdFlows	Maximum number of E-DCH MAC-d flows.

9.2.2.4MD Void

9.2.2.4ME Void

9.2.2.4MF Void

9.2.2.4MG E-DCH Maximum Bitrate

The E-DCH Maximum Bitrate parameter indicates the Maximum Bitrate for an E-DCH.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
E-DCH Maximum Bitrate			INTEGER (0..5742,…, 5743..11498, 11499..34507)	Bitrate on transport block level. Unit is kbits per second.

9.2.2.4MH Void

9.2.2.4MI E-DCH Reference Power Offset

The E-DCH Reference Power Offset is used to estimate the E-DPDCH power from E-TFCI without decoding MAC-e PDUs.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
E-DCH Reference Power Offset			INTEGER (0..6)	According to mapping in TS 25.213 [21] subclause 4.2.1.3.

9.2.2.4MJ Void

9.2.2.4N Maximum Number of Bits per MAC-e PDU for Non-scheduled Transmission

The Maximum Number of Bits per MAC-e PDU for Non-scheduled Transmission indicates the maximum numbers of bits allowed to be included in a MAC-e (or MAC-i) PDU per E-DCH MAC-d flow configured for non- scheduled transmissions. If the range of the Maximum Number of Bits per MAC-e PDU for Non-scheduled Transmission IE is insufficient to represent the value to be sent to the DRNS, the Extended Maximum Number of Bits per MAC-e PDU for Non-scheduled Transmission IE shall be used to represent the value to be sent to the DRNS, see section 9.2.2.4R.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Maximum Number of Bits per MAC-e PDU for Non-Scheduled Transmission			INTEGER (1..19982)

9.2.2.4O HARQ Process Allocation For 2ms TTI

The HARQ Process Allocation for 2ms TTI indicates those HARQ processes that are allowed. MAC-d PDU’s for a MAC-d flow are only allowed to be transmitted in those processes for which the bit is set to “1”.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

HARQ Process Allocation For 2ms TTI

BIT STRING (SIZE(8))

The first Bit corresponds to HARQ process ID = 0,

the second bit corresponds to HARQ process ID = 1,

etc.

The HARQ process ID for 2ms TTI is defined in TS 25.321 [41], chapter 11.8.1.3.

9.2.2.4P Reference E-TFCI Power Offset

The Reference E-TFCI Power Offset is used to calculate the reference E-TFC gain factor _ed,ref as defined in TS 25.214 [10]. If the range of the Reference E-TFCI Power Offset IE is insufficient to represent the value to be sent to the DRNS, the Extended Reference E-TFCI Power Offset IE shall be used to represent the value to be sent to the DRNS, see section 9.2.2.4Q.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Reference E-TFCI Power Offset			INTEGER (0..29)	According to mapping in TS 25.213 [21] subclause 4.2.1.3

9.2.2.4Q Extended Reference E-TFCI Power Offset

The Extended Reference E-TFCI Power Offset IE shall be used if the range of the Reference E-TFCI Power Offset IE (see section 9.2.2.4P) is insufficient to represent the value of the Reference E-TFCI Power Offset to be sent to the DRNS.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Extended Reference E-TFCI Power Offset			INTEGER (30..31,…)	According to mapping in TS 25.213 [21] subclause 4.2.1.3.

9.2.2.4R Extended Maximum Number of Bits per MAC-e PDU for Non-scheduled Transmission

The Extended Maximum Number of Bits per MAC-e PDU for Non-scheduled Transmission IE shall be used if the range of the Maximum Number of Bits per MAC-e PDU for Non-scheduled Transmission IE (see section 9.2.2.4N) is insufficient to represent the value of the Maximum Number of Bits per MAC-e (or MAC-i) PDU for Non-scheduled Transmission to be sent to the DRNS.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Extended Maximum Number of Bits per MAC-e PDU for Non-scheduled Transmission			INTEGER (19983..22978,…, 22979..34507)

9.2.2.4S Transport Bearer Not Requested Indicator

The Transport Bearer Not Requested Indicator parameter indicates that a transport bearer shall not be established or may not to be established for DCH or an E-DCH MAC-d flow.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Transport Bearer Not Requested Indicator			ENUMERATED (Transport Bearer shall not be Established, Transport Bearer may not be Established)

9.2.2.4T Transport Bearer Not Setup Indicator

The Transport Bearer Not Setup Indicator parameter indicates that a transport bearer will not be established for a DCH or an E-DCH MAC-d flow.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Transport Bearer Not Setup Indicator			ENUMERATED (Transport Bearer Not Setup)

9.2.2.5 D-Field Length

Void

9.2.2.6 Diversity Control Field

Void.

9.2.2.7 Diversity Indication

Void.

9.2.2.8 Diversity Mode

Define the diversity mode to be applied.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Diversity Mode			ENUMERATED(None, STTD, Closed loop mode 1, Not Used,…)	The Diversity Mode IE shall never be set to “Not Used”. If received it shall be rejected.

9.2.2.9 DL DPCH Slot Format

Indicates the slot format used in DPCH in DL, according to TS 25.211 [8].

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

DL DPCH Slot Format

INTEGER

(0..16,…,17..18)

9.2.2.9A DL DPCH Timing Adjustment

The DL DPCH Timing Adjustment indicates that a timing adjustment of the related radio link is required or that an Initial DL DPCH Timing Adjustment has been performed by the DRNS. It also indicates whether the timing adjustment consists of a timing advance or a timing delay with respect to the SFN timing. The adjustment always consists of 256 chips.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
DL DPCH Timing Adjustment			ENUMERATED(timing advance, timing delay)	The size of the timing adjustment is 256 chips.

9.2.2.10 DL Power

Void

9.2.2.10A DL Power Balancing Information

The DL Power Balancing Information IE provides information for power balancing to be activated in the relevant RL(s).

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
Power Adjustment Type	M		9.2.2.28		–
DL Reference Power	C-Common		DL power 9.2.1.21A	Power on DPCH or on F-DPCH.	–
DL Reference Power Information	C-Individual	1..<maxNrOfRLs>			–
>RL ID	M		9.2.1.49		–
>DL Reference Power	M		DL power 9.2.1.21A	Power on DPCH or on F-DPCH.	–
Max Adjustment Step	C-CommonOrIndividual		9.2.2.23		–
Adjustment Period	C-CommonOrIndividual		9.2.2.B		–
Adjustment Ratio	C-CommonOrIndividual		9.2.2.C		–

Condition	Explanation
Common	The IE shall be present if the Power Adjustment Type IE is set to “Common”.
Individual	The IE shall be present if the Power Adjustment Type IE is set to “Individual”.
CommonOrIndividual	The IE shall be present if the Power Adjustment Type IE is set to “Common” or “Individual”.

Range Bound	Explanation
maxNrOfRLs	Maximum number of Radio Links for a UE.

9.2.2.10B DL Power Balancing Activation Indicator

The DL Power Balancing Activation Indicator IE indicates that the power balancing is activated in the RL.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
DL Power Balancing Activation Indicator			ENUMERATED(DL Power Balancing Activated).

9.2.2.10C DL Reference Power Information

The DL Reference Power Information IE provides reference power of the power balancing to be used in the relevant RL(s).

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
Common DL Reference Power	O		DL power 9.2.1.21A	Power on DPCH or on F-DPCH.	–
Individual DL Reference Power Information		0..<maxNrOfRLs>			–
>RL ID	M		9.2.1.49		–
>DL Reference Power	M		DL power 9.2.1.21A	Power on DPCH or on F-DPCH.	–

Range bound	Explanation
maxNrOfRLs	Maximum number of RLs for a UE.

9.2.2.10D DL Power Balancing Updated Indicator

The DL Power Balancing Updated Indicator IE indicates that the power balancing related parameters is updated in the RL.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
DL Power Balancing Updated Indicator			ENUMERATED(DL Power Balancing Updated).

9.2.2.11 DL Scrambling Code

DL Scrambling code to be used by the RL. One cell may have multiple DL Scrambling codes available.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

DL Scrambling Code

INTEGER

(0..15)

0= Primary scrambling code of the cell.

1…15= Secondary scrambling code.

9.2.2.12 Downlink Frame Type

Void

9.2.2.12A DPC Mode

The DPC Mode IE indicates the DPC mode to be applied TS 25.214 [10].

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

DPC Mode

ENUMERATTED (Mode0, Mode1,

…)

Mode0: The DRNS shall estimate the UE transmitted TPC command and update the DL power in every slot.

Mode1: The DRNS shall estimate the UE transmitted TPC command over three slots and shall update the DL power in every three slots.

9.2.2.13 DRAC Control

The possibility to use DRAC control has been removed.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
DRAC Control			ENUMERATED (Not Used, Not-Requested)	The DRAC Control IE shall never be set to “Not Used”.

9.2.2.13A DSCH FDD Information

Void.

9.2.2.13B DSCH FDD Information Response

Void.

9.2.2.13Bb DSCH-RNTI

Void.

9.2.2.13C FDD DCHs To Modify

The FDD DCHs To Modify IE provides information for DCHs to be modified.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
FDD DCHs To Modify		1..<maxNrOfDCHs>			–
>UL FP Mode	O		9.2.1.67		–
>ToAWS	O		9.2.1.58		–
>ToAWE	O		9.2.1.57		–
>Transport Bearer Request Indicator	M		9.2.1.61		–
>DCH Specific Info		1..<maxNrOfDCHs>			–
>>DCH ID	M		9.2.1.16		–
>>Transport Format Set	O		9.2.1.64	For the UL.	–
>>Transport Format Set	O		9.2.1.64	For the DL.	–
>>Allocation/Retention Priority	O		9.2.1.1		–
>>Frame Handling Priority	O		9.2.1.29		–
>>Not Used	O		NULL		–
>>Guaranteed Rate Information	O		9.2.1.30M		YES	ignore
>>Traffic Class	O		9.2.1.58A		YES	ignore
>>Unidirectional DCH Indicator	O		9.2.1.68B		YES	reject
>TNL QoS	O		9.2.1.56A		YES	ignore

Range bound	Explanation
maxNrOfDCHs	Maximum number of DCHs for one UE.

9.2.2.13D Enhanced DSCH PC

Void.

9.2.2.13E Enhanced DSCH PC Counter

Void.

9.2.2.13F Enhanced DSCH PC Indicator

Void.

9.2.2.13G Enhanced DSCH PC Wnd

Void.

9.2.2.13H Enhanced DSCH Power Offset

Void.

9.2.2.13I Enhanced Primary CPICH Ec/No

Energy per PN chip divided by the total received power spectral density measured on the Primary CPICH by the UE.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Enhanced Primary CPICH Ec/No			INTEGER(0..49)	According to the mapping of the Primary CPICH Ec/Io UE measurement defined in TS 25.133 [23] and TS 25.123 [24].

9.2.2.14 FDD DL Channelisation Code Number

The DL Channelisation Code Number indicates the DL Channelisation Code number for a specific DL physical channel.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

FDD DL Channelisation Code Number

INTEGER(0.. 511)

According to the mapping in TS 25.213 [27].

The maximum value is equal to the DL spreading factor –1.

9.2.2.14A FDD DL Code Information

The FDD DL Code Information IE provides FDD DL Code information for all DPCHs or for the F-DPCH of one Radio Link.

IE/Group Name	Presence	Range	IE Type and Reference	Criticality
FDD DL Code Information		1.. <maxNrOfDL-Codes		–
>DL Scrambling Code	M		9.2.2.11	–
>FDD DL Channelisation Code Number	M		9.2.2.14	–
>Transmission Gap Pattern Sequence Scrambling Code Information	O		9.2.2.47B	–

Range bound	Explanation
maxNrOfDL-Codes	Maximum number of DL Channelisation Codes for one UE.

9.2.2.15 FDD S-CCPCH Offset

Void.

9.2.2.16 FDD TPC Downlink Step Size

This parameter indicates step size for the DL power adjustment.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
FDD TPC Downlink Step Size			ENUMERATED(0.5, 1, 1.5, 2,…)

9.2.2.16A First RLS Indicator

The First RLS Indicator IE indicates if a specific Radio Link and all Radio Links which are part of the same Radio Link Set, shall be considered as the first radio links established towards the UE or not.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
First RLS Indicator			ENUMERATED(first RLS, not first RLS)

9.2.2.17 Gap Position Mode

Void.

9.2.2.18 Gap Period (TGP)

Void.

9.2.2.19 Gap Starting Slot Number (SN)

Void

9.2.2.19a HS-DSCH FDD Information

The HS-DSCH FDD Information IE is used for initial addition of HS-DSCH information to UE Context.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
HS-DSCH MAC-d Flows Information	M		9.2.1.30OA		–
UE Capabilities Information		1			–
>HS-DSCH Physical Layer Category	M		9.2.1.30Oa		–
>1.28 Mcps TDD uplink physical channel capability	O		9.2.3.10D	Not to be used.	YES	ignore
>Number of Supported Carriers	O		ENUMERATED ( One-one carrier, One-three carrier, Three-three carrier, One-six carrier, Tree-six carrier, Six-six carrier, …, One-Two carrier Discontiguous, Two-Two carrier Discontiguous, One-Twocarrier Contiguous, Two-Two carrier Contiguous)	Not to be used.	YES	reject
>MIMO SF Mode Supported For HS-PDSCH dual stream	O		ENUMERATED (SF1, SF1/SF16)	Not to be used.	YES	ignore
>Multi-carrier HS-DSCH Physical Layer Category	O		HS-DSCH Physical Layer Category 9.2.1.30Oa	Not to be used.	YES	ignore
>UE TS0 Capability LCR	O		ENUMERATED (TS0 Capable, TS0 Non-Capable)	Not to be used.	YES	ignore
>UE RF Band Capability LCR	C-NofSupportedCarriers		9.2.3.84	Not to be used.	YES	ignore
MAC-hs Reordering Buffer Size for RLC-UM	M		9.2.1.34Ab		–
CQI Feedback Cycle k	M		9.2.2.24a		–
CQI Repetition Factor	C-CQICyclek		9.2.2.24c		–
ACK-NACK Repetition Factor	M		9.2.2.a		–
CQI Power Offset	M		9.2.2.24b		–
ACK Power Offset	M		9.2.2.b		–
NACK Power Offset	M		9.2.2.26a		–
HS-SCCH Power Offset	O		9.2.2.19d		–
HARQ Preamble Mode	O		9.2.2.57		YES	ignore
MIMO Activation Indicator	O		9.2.1.134		YES	reject
HS-DSCH MAC-d PDU Size Format	O		9.2.1.30OC	If not present, “Indexed MAC-d PDU Size” shall be used.	YES	reject
Sixtyfour QAM Usage Allowed Indicator	O		9.2.2.79A		YES	ignore
UE with enhanced HS-SCCH support indicator	O		NULL	UE supports enhanced HS-SCCH functionality: – UE supports different HS-SCCH in consecutive TTIs and, – in HS-SCCH-less operation mode the UE supports HS-SCCH orders.	YES	ignore
Enhanced HS Serving CC Abort	O		ENUMERATED (Abort Enhanced HS Serving CC, …)	Shall be ignored in Radio Link Setup and Radio Link Addition procedures.	YES	reject
UE Support Indicator Extension	O		9.2.2.103		YES	ignore
Power Offset For S-CPICH for MIMO Request Indicator	O		9.2.2.105		YES	ignore
Single Stream MIMO Activation Indicator	O		9.2.2.106		YES	reject
MIMO with four transmit antennas Activation Indicator	O		9.2.2.145		YES	reject
Dual Stream MIMO with four transmit antennas Activation Indicator	O		9.2.2.149		YES	reject
Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator	O		9.2.2.147		YES	ignore
Multiflow Information	O		9.2.2.152	For FDD only	YES	reject
CQI Feedback Cycle2 k	O		CQI Feedback Cycle2 k 9.2.2.181	For FDD only	YES	ignore
CQI Cycle Switch Timer	O		ENUMERATED (v4, v8, v16, v32, v64, v128, v256, v512, Infinity)	For FDD only, refer to TS 25.331 [16].	YES	ignore

Condition	Explanation
CQICyclek	The IE shall be present if the CQI Feedback Cycle k IE is set to a value greater than 0.

9.2.2.19aa HS-DSCH FDD Secondary Serving Information

The HS-DSCH FDD Secondary Serving Information IE is used for initial addition of Secondary Serving HS-DSCH information to UE Context and defines the cell specific parameters for the secondary serving HS-DSCH Radio Link.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
HS-SCCH Power Offset	O		9.2.2.19d		–
Sixtyfour QAM Usage Allowed Indicator	O		9.2.2.79A		–
MIMO Activation Indicator	O		9.2.1.134		YES	reject
Single Stream MIMO Activation Indicator	O		9.2.2.106		YES	reject
Diversity Mode	O		9.2.2.8	If Diversity mode = “Closed loop mode 1” the procedure shall be rejected.	YES	reject
Transmit Diversity Indicator	O		9.2.2.48		YES	reject
Power Offset For S-CPICH for MIMO Request Indicator	O		9.2.2.105		YES	ignore
Ordinal Number Of Frequency	O		INTEGER (1..32,…)	Value = "1" indicates 1st secondary serving HS-DSCH cell, Value = "2" indicates 2nd secondary serving HS-DSCH cell etc. TS 25.214 [10]. The IE shall be ignored by the DRNS if the new configuration contains one secondary serving radio link.	YES	reject
MIMO with four transmit antennas Activation Indicator	O		9.2.2.145		YES	reject
Dual Stream MIMO with four transmit antennas Activation Indicator	O		9.2.2.149		YES	reject
Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator	O		9.2.2.147		YES	ignore
Multiflow Ordinal Number Of Frequency	O		INTEGER (1..32,…)	In intra-Node B multiflow case, the Value specifies the index of the secondary serving or assisting serving or assisting secondary serving HS-DSCH cell for the UL HS-DPCCH as specified in TS 25.212. In inter-Node B multiflow case, if present, the Value must be “1” when there is one secondary serving HS-DSCH cell. Otherwise the Value specifies the index of this cell for the UL HS-DPCCH as specified in [9].	YES	reject

9.2.2.19b HS-DSCH FDD Information Response

The HS-DSCH FDD Information Response IE provides information for HS-DSCH MAC-d flows that have been established or modified. It also provides additional HS-DSCH information determined within the DRNS.

IE/Group Name	Presence	Range	IE Type and Reference	Criticality	Assigned Criticality
HS-DSCH MAC-d Flow Specific Information Response		0..<maxNrOfMACdFlows>		–
>HS-DSCH MAC-d Flow ID	M		9.2.1.30O	–
>Binding ID	O		9.2.1.3	–
>Transport Layer Address	O		9.2.1.62	–
>HS-DSCH Initial Capacity Allocation	O		9.2.1.30Na	–
HS-SCCH Specific Information Response		0..<maxNrOfHSSCCHCodes>		–
>Code Number	M		INTEGER (0..127)	–
HS-PDSCH And HS-SCCH Scrambling Code	O		DL Scrambling Code 9.2.2.11	–
Measurement Power Offset	O		9.2.2.24d	–
HARQ Memory Partitioning	O		9.2.1.116	–
User Plane Congestion Fields Inclusion	O		9.2.1.70C	YES	ignore
HARQ Preamble Mode Activation Indicator	O		9.2.2.58	YES	ignore
MIMO Information Response	O		9.2.2.78	YES	ignore
SixtyfourQAM DL Usage Indicator	O		9.2.2.79B	YES	ignore
HS-DSCH TB Size Table Indicator	O		9.2.2.19G	YES	ignore
Power Offset For S-CPICH for MIMO	O		9.2.2.104	YES	ignore
Support of Dynamic DTXDRX Related HS-SCCH Order	O		9.2.2.129	YES	ignore
Power Offset For S-CPICH for MIMO with four transmit antennas	O		9.2.2.148	YES	ignore
Precoder weight set restriction	O		9.2.2.167	YES	ignore

Range bound	Explanation
maxNrOfMACdFlows	Maximum number of MAC-d flows.
maxNrOfHSSCCHCodes	Maximum number of HS-SCCH codes.

9.2.2.19ba HS-DSCH FDD Secondary Serving Information Response

The HS-DSCH FDD Secondary Serving Information Response IE provides Secondary Serving HS-DSCH information determined within the DRNS.

IE/Group Name	Presence	Range	IE Type and Reference	Criticality	Assigned Criticality
HS-SCCH Specific Secondary Serving Information Response		0..<maxNrOfHSSCCHCodes>		–
>Code Number	M		INTEGER (0..127)	–
HS-PDSCH And HS-SCCH Scrambling Code	O		DL Scrambling Code 9.2.2.11	–
Measurement Power Offset	O		9.2.2.24d	–
SixtyfourQAM DL Usage Indicator	O		9.2.2.79B	–
HS-DSCH TB Size Table Indicator	O		9.2.2.19G	–
MIMO Information Response	O		9.2.2.78	YES	ignore
Power Offset For S-CPICH for MIMO	O		9.2.2.104	YES	ignore
Power Offset For S-CPICH for MIMO with four transmit antennas	O		9.2.2.148	YES	ignore
Precoder weight set restriction	O		9.2.2.167	YES	ignore

Range bound	Explanation
maxNrOfHSSCCHCodes	Maximum number of HS-SCCH codes.

9.2.2.19bb HS-DSCH FDD Secondary Serving Information To Modify

The HS-DSCH FDD Secondary Serving Information To Modify IE is used for modification of cell specific Secondary Serving HS-DSCH information in a UE Context.

IE/Group Name	Presence	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
HS-SCCH Power Offset	O	9.2.2.19d		–
HS-SCCH Code Change Grant	O	9.2.1.30S		–
Sixtyfour QAM Usage Allowed Indicator	O	9.2.2.79A		–
MIMO Mode Indicator	O	9.2.1.135		YES	reject
Single Stream MIMO Mode Indicator	O	9.2.2.107		YES	reject
Diversity Mode	O	9.2.2.8	If Diversity mode = “Closed loop mode 1” the procedure shall be rejected.	YES	reject
Transmit Diversity Indicator	C-DiversityMode	9.2.2.48		YES	reject
Non Cell Specific Tx Diversity	O	ENUMERATED (Tx Diversity, …)	Value = “Tx Diversity”: Diversity Mode and Transmit Diversity Indicator shall be non cell specific.	YES	reject
Power Offset For S-CPICH for MIMO Request Indicator	O	9.2.2.105		YES	ignore
Ordinal Number Of Frequency	O	INTEGER (1..32,…)	Value = "1" indicates 1st secondary serving HS-DSCH cell, Value = "2" indicates 2nd secondary serving HS-DSCH cell etc. TS 25.214 [10]. The IE shall be ignored by the DRNS if the new configuration contains one secondary serving radio link.	YES	reject
MIMO with four transmit antennas Mode Indicator	O	9.2.2.146	For FDD only	YES	reject
Dual Stream MIMO with four transmit antennas Mode Indicator	O	9.2.2.150	For FDD only	YES	reject
Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator	O	9.2.2.147	For FDD only	YES	ignore
Multiflow Ordinal Number Of Frequency	O	INTEGER (1..32,…)	In intra-Node B multiflow case, the Value specifies the index of the secondary serving or assisting serving or assisting secondary serving HS-DSCH cell for the UL HS-DPCCH as specified in TS 25.212. In inter-Node B multiflow case, if present, the Value must be “1” when there is one secondary serving HS-DSCH cell. Otherwise the Value specifies the index of this cell for the UL HS-DPCCH as specified in [9].	YES	reject

Condition	Explanation
DiversityMode	The IE shall be present if Diversity Mode IE is present and not set to “None”.

9.2.2.19bc HS-DSCH FDD Secondary Serving Information To Modify Unsynchronised

The HS-DSCH FDD Secondary Serving Information To Modify Unsynchronised IE is used for modification of Secondary Serving HS-DSCH information in a UE Context with the Unsynchronised Radio Link Reconfiguration procedure.

IE/Group Name	Presence	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
HS-SCCH Power Offset	O	9.2.2.19d		–
Sixtyfour QAM Usage Allowed Indicator	O	9.2.2.79A		–
MIMO Mode Indicator	O	9.2.1.135		YES	reject
Single Stream MIMO Mode Indicator	O	9.2.2.107		YES	reject
Power Offset For S-CPICH for MIMO Request Indicator	O	9.2.2.105		YES	ignore
Ordinal Number Of Frequency	O	INTEGER (1..32,…)	Value = "1" indicates 1st secondary serving HS-DSCH cell, Value = "2" indicates 2nd secondary serving HS-DSCH cell etc. TS 25.214 [10]. The IE shall be ignored by the DRNS if the new configuration contains one secondary serving radio link.	YES	reject
MIMO with four transmit antennas Mode Indicator	O	9.2.2.146	For FDD only	YES	reject
Dual Stream MIMO with four transmit antennas Mode Indicator	O	9.2.2.150	For FDD only	YES	reject
Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator	O	9.2.2.147	For FDD only	YES	ignore
Multiflow Ordinal Number Of Frequency	O	INTEGER (1..32,…)	In intra-Node B multiflow case, the Value specifies the index of the secondary serving or assisting serving or assisting secondary serving HS-DSCH cell for the UL HS-DPCCH as specified in TS 25.212. In inter-Node B multiflow case, if present, the Value must be “1” when there is one secondary serving HS-DSCH cell. Otherwise the Value specifies the index of this cell for the UL HS-DPCCH as specified in [9].	YES	reject

9.2.2.19c HS-DSCH FDD Update Information

The HS-DSCH FDD Update Information IE provides information for HS-DSCH to be updated. At least one IE shall be presented.

IE/Group name	Presence	Range	IE Type and Reference	Semantic Description	Criticality	Assigned Criticality
HS-SCCH Code Change Indicator	O		9.2.1.30R		–
CQI Feedback Cycle k	O		9.2.2.24a		–
CQI Repetition Factor	O		9.2.2.24c		–
ACK-NACK Repetition Factor	O		9.2.2.a		–
CQI Power Offset	O		9.2.2.24b		–
ACK Power Offset	O		9.2.2.b		–
NACK Power Offset	O		9.2.2.26a		–
HS-PDSCH Code Change Indicator	O		9.2.1.30V		YES	ignore
Precoder weight set restriction	O		9.2.2.167		YES	ignore
CQI Feedback Cycle2 k	O		CQI Feedback Cycle2 k 9.2.2.181	For FDD only	YES	ignore
CQI Cycle Switch Timer	O		ENUMERATED (v4, v8, v16, v32, v64, v128, v256, v512, Infinity)	For FDD only, refer to TS 25.331 [16].	YES	ignore

9.2.2.19ca HS-DSCH FDD Secondary Serving Update Information

The HS-DSCH FDD Secondary Serving Update Information IE provides information for HS-DSCH to be updated. At least one IE shall be presented.

IE/Group name	Presence	Range	IE Type and Reference	Semantic Description	Criticality	Assigned Criticality
HS-SCCH Code Change Indicator	O		9.2.1.30R		–
HS-PDSCH Code Change Indicator	O		9.2.1.30V	This IE shall never be included. If received it shall be ignored.	–
Precoder weight set restriction	O		9.2.2.167		YES	ignore

9.2.2.19C HS-DSCH Configured Indicator

The HS-DSCH Configured Indicator IE indicates the configuration of HS-DSCH for the UE. The HS-DSCH Configured Indicator IE shall be used for the configuration of the E-DPDCH IQ branch mapping (TS 25.213 [21]).

IE/Group Name	Presence	Range	IE type and reference	Semantics description
HS-DSCH Configured Indicator			ENUMERATED (HS-DSCH configured, HS-DSCH not configured)	Indicator of the HS-DSCH configuration for configuration of the E-DPDCHs IQ branch mapping (TS 25.213 [21]).

9.2.2.19d HS-SCCH Power Offset

The HS-SCCH Power Offset IE indicates the Power offset relative to the pilot bits on the DL DPCCH except when FDPCH is configured. When F-DPCH is configured, the HS-SCCH Power Offset IE indicates the Power offset relative to the power of transmitted TPC bits on the F-DPCH.

IE/Group Name	Presence	Range	IE type and reference	Semantics description
HS-SCCH Power Offset			INTEGER (0..255)	Step 0.25 dB, range -32- +31.75 dB.

9.2.2.19e E-DCH FDD Update Information

The E-DCH FDD Update Information IE provides information for E-DCH to be updated. At least one IE shall be present.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
E-DCH MAC-d Flow Specific Update Information		0..<maxNrOfEDCHMACdFlows>			–
>E-DCH MAC-d Flow ID	M		9.2.1.91		–
>HARQ Process Allocation For 2ms Non-Scheduled Transmission Grant	O		HARQ Process Allocation for 2ms TTI 9.2.2.4O		–
HARQ Process Allocation For 2ms Scheduled Transmission Grant	O		HARQ Process Allocation for 2ms TTI 9.2.2.4O		–
E-DCH DL Control Channel Change Information		0..<maxNrOfEDCHRLs>			GLOBAL	ignore
>E-DCH RL ID	M		RL ID 9.2.1.49		–
TTI Update Indication	O		9.2.2.184		YES	reject

Range bound	Explanation
maxNrOfEDCHMACdFlows	Maximum number of E-DCH MAC-d flows.
maxNrOfEDCHRLs	Maximum number of E-DCH RLs for one UE

9.2.2.19f HS-DSCH Serving Cell Change Information

The HS-DSCH Serving Cell Change Information IE contains information which is used in HS-DSCH Serving Cell change.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
HS-PDSCH RL ID	M		RL ID 9.2.1.49		–
HS-DSCH Information	O		HS-DSCH FDD Information 9.2.2.19a		–
Continuous Packet Connectivity HS-SCCH less Information	O		9.2.2.74		YES	reject
Continuous Packet Connectivity DTX-DRX Information	O		9.2.2.72		YES	reject

9.2.2.19g HS-DSCH Serving Cell Change Information Response

The HS-DSCH Serving Cell Change Information Response IE contains information which is used in HS-DSCH Serving Cell change.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
CHOICE Serving Cell Change					–
>Successful					–
>>HS-DSCH FDD Information Response	M		9.2.2.19b		–
>>HS-DSCH-RNTI	M		9.2.1.30P		–
>>Continuous Packet Connectivity HS-SCCH less Information Response	O		9.2.2.75		YES	ignore
>Unsuccessful					–
>>Cause	M		9.2.1.5		–

9.2.2.19ga HS-DSCH Secondary Serving Cell Change Information Response

The HS-DSCH Secondary Serving Cell Change Information Response IE contains information which is used in HS-DSCH Secondary Serving Cell change.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
CHOICE Secondary Serving Cell Change
>Successful
>>HS-DSCH FDD Secondary Serving Information Response	M		9.2.2.19ba
>>HS-DSCH-RNTI	M		9.2.1.30P
>Unsuccessful
>>Cause	M		9.2.1.5

9.2.2.19G HS-DSCH TB Size Table Indicator

The HS-DSCH TB Size Table Indicator IE is used to indicate that octet aligned table (TS 25.321 [41]) shall be used.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
HS-DSCH TB Size Table Indicator			ENUMERATED (octet aligned)

9.2.2.19h E-DCH Serving Cell Change Information Response

The E-DCH Serving Cell Change Information Response IE contains information which is used in E-DCH Serving Cell change.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
CHOICE Serving Cell Change
>Successful
>>RL Information Response		0..<maxNrOfRLs>
>>>RL ID	M		9.2.1.49
>>>E-DCH FDD DL Control Channel Information	M		9.2.2.4D
>Unsuccessful
>>Cause	M		9.2.1.5

Range bound	Explanation
maxNrOfRLs	Maximum number of RLs for one UE.

9.2.2.20 IB_SG_POS

Void.

9.2.2.21 IB_SG_REP

Void.

9.2.2.21a Inner Loop DL PC Status

The Inner Loop DL PC Status IE indicates whether inner loop DL control shall be active or inactive for all radio links for the UE Context.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Inner Loop DL PC Status			ENUMERATED(Active, Inactive)

9.2.2.21b Initial DL DPCH Timing Adjustment Allowed

The Initial DL DPCH Timing Adjustment Allowed IE indicates that the DRNS is allowed to perform a timing adjustment (either a timing advance or a timing delay with respect to the SFN timing) when establishing a radio link.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Initial DL DPCH Timing Adjustment Allowed

ENUMERATED (

initial DL DPCH Timing Adjustment Allowed)

9.2.2.21A Limited Power Increase

The parameter is used for a more efficient use of the inner loop DL power control for non real time data.

If the limited power increase is used, DRNS shall use the limited power increase algorithm as specified in TS 25.214 [10], subclause 5.2.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Limited Power Increase			ENUMERATED(Used, Not used , )

9.2.2.21B IPDL FDD Parameters

The IPDL FDD Parameters IE provides the information for the IPDL Configuration applied in FDD mode.

IE/Group name	Presence	Range	IE Type and Reference	Semantics Description
IP spacing FDD	M		ENUMERATED(5,7,10,15,20,30,40,50,…)	See TS 25.214 [10].
IP length	M		ENUMERATED(5,10,…)	See TS 25.214 [10].
IP offset	M		INTEGER(0..9)	See TS 25.214 [10].
Seed	M		INTEGER(0..63)	See TS 25.214 [10].
Burst mode parameters	O		9.2.1.4B

9.2.2.21C Length of TFCI2

Void.

9.2.2.21D Void

9.2.2.21E Void

9.2.2.21F Void

9.2.2.22 Max Adjustment Period

Void.

9.2.2.23 Max Adjustment Step

Defines the maximum allowed value for the change of DL power level during a certain number of slots that can be utilised by the downlink power balancing algorithm. Max Adjustment Step IE defines a time period, in terms of number of slots, in which the accumulated power adjustments shall be maximum 1 dB. This value does not include the DL inner loop PC adjustment.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Max Adjustment Step			INTEGER (1..10)	Slots.

9.2.2.24 Max Number of UL DPDCHs

Maximum number of uplink DPDCHs during the connection. Needed by the rate matching algorithm.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Max Number of UL DPDCHs

INTEGER

(1..6)

9.2.2.24a CQI Feedback Cycle k

The CQI Feedback Cycle k IE provides the duration of the CQI feedback cycle.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

CQI Feedback Cycle k

ENUMERATED (0, 2, 4, 8, 10, 20, 40, 80, 160,…, 16, 32, 64)

Unit ms

The allowed values for this IE depend on the configured CQI Repetition Factor and the HS-DSCH configuration as defined in TS 25.214 [10].

9.2.2.24b CQI Power Offset

The CQI Power Offset IE indicates Power offset used in the UL between the HS-DPCCH slots carrying CQI information and the associated DPCCH.

IE/Group Name	Presence	Range	IE type and reference	Semantics description
CQI Power Offset			INTEGER (0..8,…, 9..10)	According to mapping in TS 25.213 [21] subclause 4.2.1.

9.2.2.24c CQI Repetition Factor

The CQI Repetition Factor IE indicates the consecutive repetition of the CQI.

IE/Group Name	Presence	Range	IE type and reference	Semantics description
CQI Repetition Factor			INTEGER (1..,4,…)	Step: 1.

9.2.2.24d Measurement Power Offset

The Measurement Power Offset IE is used as defined in TS 25.214 [10] subclause 6A.2.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Measurement Power Offset

INTEGER (-12..26)

Unit: dB.

Range: -6..13dB.

Step: 0.5dB.

9.2.2.24e Maximum Set of E-DPDCHs

The Maximum Set of E-DPDCHs as defined in TS 25.212 [9]. Needed by rate matching algorithm.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Maximum Set of E-DPDCHs			ENUMERATED (vN256, vN128, vN64, vN32, vN16, vN8, vN4, v2xN4, v2xN2, v2xN2plus2xN4,…, v2xM2plus2xM4)

9.2.2.24f Void

9.2.2.24A Min DL Channelisation Code Length

Void

9.2.2.25 Min UL Channelisation Code Length

Minimum UL channelisation code length (spreading factor) of a DPDCH during the connection. Needed by rate matching algorithm.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Min UL Channelisation Code Length

ENUMERATED(4,8,16,

32,64,128,

256)

9.2.2.26 Multiplexing Position

Multiplexing Position specifies whether fixed or flexible positions of transport channels shall be used in the physical channel.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Multiplexing Position			ENUMERATED(Fixed, Flexible)

9.2.2.26a NACK Power Offset

The NACK Power Offset IE indicates Power offset used in the UL between the HS-DPCCH slot carrying HARQ NACK information and the associated DPCCH.

IE/Group Name	Presence	Range	IE type and reference	Semantics description
NACK Power Offset			INTEGER (0..8,…, 9..10)	According to mapping in TS 25.213 [21] subclause 4.2.1.

9.2.2.26A Number of DL Channelisation Codes

This parameter notifies DRNS of the number of DL channelisation codes required for the Radio Link(s).

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Number of DL Channelisation Codes			INTEGER (1..8)

9.2.2.27 Pattern Duration (PD)

Void

9.2.2.27a PC Preamble

Indicates DPDCH power control preamble length see TS 25.105 [7].

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
PCP Preamble			INTEGER (0..7,…)	In number of frames.

9.2.2.27A PDSCH Code Mapping

Void.

9.2.2.27B Phase Reference Update Indicator

The Phase Reference Update Indicator IE indicates that the phase reference for the radio link needs to be changed.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Phase Reference Update indicator			ENUMERATED (Phase Reference needs to be changed)

9.2.2.28 Power Adjustment Type

Defines the characteristic of the power adjustment.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Power Adjustment Type			ENUMERATED(None, Common, Individual)

9.2.2.29 Power Control Mode (PCM)

Void.

9.2.2.30 Power Offset

This IE defines a power offset relative to the Downlink transmission power of a DPCH in case the UE Context is configured to use DPCH in the downlink.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Power Offset

INTEGER
(0..24)

Unit dB,

Step 0.25 dB,

Range 0..6 dB.

9.2.2.31 Power Resume Mode (PRM)

Void.

9.2.2.31A Preamble Signatures

Void.

9.2.2.32 Primary CPICH Ec/No

Energy per chip divided by the power density per band measured on the Primary CPICH by the terminal.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Primary CPICH Ec/No

INTEGER
(-30..+30)

Unit dB, step 1 dB.

The value range is typically within the range of -24 dB to 0 dB according to the CPICH Ec/Io UE measurement defined in TS 25.133 [23].

9.2.2.32A Primary CPICH Usage For Channel Estimation

The Primary CPICH Usage For Channel Estimation IE indicates whether the Primary CPICH may be used for channel estimation or not.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Primary CPICH Usage For Channel Estimation			ENUMERATED (Primary CPICH may be used, Primary CPICH shall not be used)

9.2.2.33 Propagation Delay (PD)

Propagation delay is the one-way propagation delay of the radio signal from the UE to the Node B. If the range of the Propagation Delay IE is insufficient to represent the measured value, it shall be set to its maximum value, and the Extended Propagation Delay IE (see 9.2.2.33a) shall be used to represent the propagation delay value.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Propagation Delay

INTEGER
(0..255)

Unit: Chips. Step: 3 chips.

0=0 chips,

1=3 chips, …

9.2.2.33a Extended Propagation Delay

The Extended Propagation delay is the one-way propagation delay of the radio signal from the MS to the Node B. It shall be used if the Propagation Delay IE (see 9.2.2.33) cannot represent the measured value, due to range limitation.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Extended Propagation Delay

INTEGER (255..1023)

Continuation of intervals as defined in TS 25.133 [23].

Unit: chip.

Range: 765..3069 chips.

Step: 3 chips.

9.2.2.33A PRACH Minimum Spreading Factor

Void.

9.2.2.34 QE-Selector

Void.

9.2.2.34a Qth Parameter

Void.

9.2.2.34A RACH Sub Channel Numbers

Void.

9.2.2.35 RL Set ID

The RL Set ID uniquely identifies one RL Set within a UE Context.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

RL Set ID

INTEGER

(0..31)

9.2.2.35a RL Specific E-DCH Information

The RL Specific E-DCH Information IE provides RL specific E-DCH Information.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
RL Specific E-DCH Information		1..<maxNrOfEDCHMACdFlows>			–
>E-DCH MAC-d Flow ID	M		9.2.1.91		–
>Binding ID	O		9.2.1.3	Shall be ignored if bearer establishment with ALCAP.	–
>Transport Layer Address	O		9.2.1.62	Shall be ignored if bearer establishment with ALCAP.	–
>Transport Bearer Not Requested Indicator	O		9.2.2.4S		YES	ignore
E-AGCH Power Offset	O		9.2.2.61		–
E-RGCH Power Offset	O		9.2.2.62		–
E-HICH Power Offset	O		9.2.2.63		–

Range Bound	Explanation
maxNrOfEDCHMACdFlows	Maximum number of E-DCH MAC-d flows.

9.2.2.35A Received Total Wide Band Power

The parameter indicates the Received total wide band power in a cell, see TS 25.215 [11].

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Received Total Wide Band Power			INTEGER(0..621)	According to mapping in TS 25.133 [23].

9.2.2.36 S-Field Length

Void.

9.2.2.36A Void

9.2.2.37 Scrambling Code Change

Void.

9.2.2.37A Scrambling Code Number

Void.

9.2.2.37B Secondary CCPCH Info

Void.

9.2.2.38 Secondary CCPCH Slot Format

Void.

9.2.2.38A Secondary CPICH Information

The Secondary CPICH Information IE provides the information on the Secondary CPICH when it can be used for channel estimation.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
DL Scrambling Code	M		9.2.2.11
FDD DL Channelisation Code Number	M		9.2.2.14

9.2.2.38B Secondary CPICH Information Change

The Secondary CPICH Information Change IE indicates modification of information of the Secondary CPICH for channel estimation.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
CHOICE Secondary CPICH Information Change	M
>New Secondary CPICH
>>Secondary CPICH Information	M		9.2.2.38A
>Secondary CPICH Shall Not Be Used			NULL

9.2.2.38C Serving E-DCH RL

The Serving E-DCH RL IE indicates whether the Serving E-DCH RL is in the DRNS.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
CHOICE Serving E-DCH RL	M
>Serving E-DCH RL in this DRNS
>>Serving E-DCH RL ID	M		RL ID 9.2.1.49
>Serving E-DCH RL not in this DRNS			NULL

9.2.2.39 Slot Number (SN)

Void

9.2.2.39a Split Type

Void.

9.2.2.39A SRB Delay

Indicates the number of frames after the PC Preamble period during which transmission of data on some RRC Signalling Bearers shall be prohibited by UE in accordance with TS 25.331 [16].

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
SRB Delay			INTEGER(0..7,…)	In number of frames.

9.2.2.40 SSDT Cell Identity

Void.

9.2.2.40A SSDT Cell Identity for EDSCHPC

Void.

9.2.2.41 SSDT Cell Identity Length

Void.

9.2.2.42 SSDT Indication

Void.

9.2.2.43 SSDT Support Indicator

The possibility to use SSDT Support Indicator has been removed.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
SSDT Support Indicator			ENUMERATED(Not Used, SSDT not supported).	The SSDT Support Indicator IE shall never be set to “Not Used”.

9.2.2.44 STTD Indicator

Void.

9.2.2.45 STTD Support Indicator

The STTD Support Indicator indicates whether the STTD can be applied to DL DPCH and F-DPCH in the cell or not.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
STTD Support Indicator			ENUMERATED(STTD Supported, STTD not Supported).

9.2.2.45A Synchronisation Indicator

The Synchronisation Indicator IE indicates that Timing Maintained Synchronisation shall be used at start of Radio Link, see also [10].

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Synchronisation Indicator			ENUMERATED (Timing Maintained Synchronisation,…)

9.2.2.46 TFCI Signalling Mode

This parameter indicates has only one value with any meaning.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
TFCI Signalling Mode			ENUMERATED(Normal, Not Used)	The value “Not Used” shall not be used by the SRNC. The procedure shall be rejected by the DRNC if the value “Not Used” is received.

9.2.2.46A TFCI PC Support Indicator

Void.

9.2.2.47 Transmission Gap Distance (TGD)

Void.

9.2.2.47A Transmission Gap Pattern Sequence Information

Defines the parameters for the compressed mode gap pattern sequence. For details see TS 25.331 [16].

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Transmission Gap Pattern Sequence Information		1..<maxTGPS>
>TGPSI Identifier	M		INTEGER(1..<MaxTGPS>)	Transmission Gap Pattern Sequence Identifier Establish a reference to the compressed mode pattern sequence. Up to <MaxTGPS> simultaneous compressed mode pattern sequences can be used.
>TGSN	M		INTEGER(0..14)	Transmission Gap Starting Slot Number The slot number of the first transmission gap slot within the TGCFN.
>TGL1	M		INTEGER(1..14)	The length of the first Transmission Gap within the transmission gap pattern expressed in number of slots.
>TGL2	O		INTEGER(1..14)	The length of the second Transmission Gap within the transmission gap pattern. If omitted, then TGL2=TGL1.
>TGD	M		INTEGER (0, 15.. 269)	Transmission gap distance indicates the number of slots between the starting slots of two consecutive transmission gaps within a transmission gap pattern. If there is only one transmission gap in the transmission gap pattern, this parameter shall be set to 0 (0 =undefined).
>TGPL1	M		INTEGER(1..144,…)	The duration of transmission gap pattern 1 in frames.
>Not-to-be-used-1	O		INTEGER(1..144,…)	This IE shall never be included in the IE group. If received it shall be ignored.
>UL/DL mode	M		ENUMERATED(UL only, DL only, UL/DL)	Defines whether only DL, only UL, or combined UL/DL compressed mode is used.
>Downlink Compressed Mode Method	C-DL		ENUMERATED(not Used, SF/2, higher layer scheduling,…)	Method for generating downlink compressed mode gap The Downlink Compressed Mode Method IE shall never be set to “not Used”.
>Uplink Compressed Mode Method	C-UL		ENUMERATED(SF/2, higher layer scheduling,…)	Method for generating uplink compressed mode gap.
>Downlink Frame Type	M		ENUMERATED(A, B,…)	Defines if frame type “A” or “B” shall be used in downlink compressed mode.
>DeltaSIR1	M		INTEGER(0..30)	Delta in SIR target value to be set in the DRNS during the frame containing the start of the first transmission gap in the transmission gap pattern (without including the effect of the bit-rate increase) Step 0.1 dB, Range 0-3dB.
>DeltaSIRafter1	M		INTEGER (0..30)	Delta in SIR target value to be set in the DRNS one frame after the frame containing the start of the first transmission gap in the transmission gap pattern,. Step 0.1 dB, Range 0-3dB.
>DeltaSIR2	O		INTEGER (0..30)	Delta in SIR target value to be set in the DRNS during the frame containing the start of the second transmission gap in the transmission gap pattern (without including the effect of the bit-rate increase) When omitted, DeltaSIR2 = DeltaSIR1. Step 0.1 dB, Range 0-3dB.
>DeltaSIRafter2	O		INTEGER (0..30)	Delta in SIR target value to be set in the DRNS one frame after the frame containing the start of the second transmission gap in the transmission gap pattern. When omitted, DeltaSIRafter2 = DeltaSIRafter1. Step 0.1 dB, Range 0-3dB.

Condition	Explanation
UL	The IE shall be present if the UL/DL mode IE is set to “UL only” or “UL/DL”.
DL	The IE shall be present if the UL/DL mode IE is set to “DL only” or “UL/DL”.

Range bound	Explanation
maxTGPS	Maximum number of transmission gap pattern sequences.

9.2.2.47B Transmission Gap Pattern Sequence Scrambling Code Information

This IE indicates whether or not the alternative scrambling code will be used in the DRNS for the Downlink compressed mode method “SF/2” in the Transmission Gap Pattern Sequence. For details see TS 25.331 [16].

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Transmission Gap Pattern Sequence Scrambling Code Information			ENUMERATED(code change, no code change)	Code change = alternative scrambling code will be used.

9.2.2.48 Transmit Diversity Indicator

The Transmit Diversity Indicator indicates whether Transmit Diversity shall be active or not.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Transmit Diversity Indicator			ENUMERATED(active, inactive)

9.2.2.49 Transmit Gap Length (TGL)

Void

9.2.2.50 Tx Diversity Indicator

The Tx Diversity Indicator indicates if the following conditions are satisfied:

– Primary CPICH is broadcast from two antennas

– STTD is applied to Primary CCPCH

– TSTD is applied to Primary SCH and Secondary SCH

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Tx Diversity Indicator			ENUMERATED(true, false).

9.2.2.50A UE Support Of Dedicated Pilots For Channel Estimation

Void.

9.2.2.50B UE Support Of Dedicated Pilots For Channel Estimation Of HS-DSCH

Void.

9.2.2.51 UL/DL Compressed Mode Selection

Void

9.2.2.52 UL DPCCH Slot Format

Indicates the slot format used in DPCCH in UL, according to TS 25.211 [8].

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

UL DPCCH Slot Format

INTEGER

(0..5,…)

If DCH Enhancement (Basic/Full) capabilities are not supported, value 5 shall not be used. If in this case value 5 is received, the procedure shall be rejected.

9.2.2.52A UL DPDCH Indicator for E-DCH operation

This IE indicated whether the requested configuration actually contain an UL DPDCH.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
UL DPDCH Indicator for E-DCH operation			ENUMERATED (UL-DPDCH present, UL-DPDCH not present)

9.2.2.53 UL Scrambling Code

The UL Scrambling Code is the scrambling code used by UE. Every UE has its specific UL Scrambling Code.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

UL Scrambling Code Number

INTEGER

(0.. 2²⁴-1)

UL Scrambling Code Length

ENUMERATED(Short, Long)

9.2.2.54 Uplink Delta SIR

Void

9.2.2.55 Uplink Delta SIR After

Void

9.2.2.56 DPC Mode Change Support Indicator

The DPC Mode Change Support Indicator IE indicates that the particular cell is capable to support DPC mode change.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
DPC Mode Change Support Indicator			ENUMERATTED (DPC Mode Change Supported)

9.2.2.57 HARQ Preamble Mode

The HARQ Preamble Mode IE is used as described as described in TS 25.214 [10].

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

HARQ Preamble Mode

ENUMERATED(mode0, mode1)

“mode0” means HARQ Preamble Mode =0.

“mode1” means HARQ Preamble Mode =1.

9.2.2.58 HARQ Preamble Mode Activation Indicator

The HARQ Preamble Activation Indicator indicates if the configured HARQ Preamble Mode has been activated in the DRNS.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
HARQ Preamble Mode Activation Indicator			ENUMERATED(HARQ Preamble Mode Activated).

9.2.2.59 Frequency Band Indicator

The Frequency Band Indicator IE indicates frequency band as defined in TS 25.104 [6].

IE/Group Name

Presence

Range

IE type and reference

Semantics description

Frequency Band Indicator

ENUMERATED (Band I, Band II, Band III, Band IV, Band V, Band VI, Band VII, Band VIII, Band IX, Band X, Band XI, Band XII, Band XIII, Band XIV, Band XV, Band XVI, Band XVII, Band XVIII, Band XIX, Band XX, Band XXI, Band XXII, …,

Reserved23,

Reserved24,

Band XXV, Band XXVI,

Reserved27,

Reserved28,

Reserved29,

Reserved30,

Reserved31,

Band XXXII)

Note 1: The Band XXXII is the supplemental Downlink only operating band.

9.2.2.60 E-RGCH Release Indicator

Indicates that the E-RGCH is released..

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
E-RGCH Release Indicator			ENUMERATED (E-RGCH released)

9.2.2.61 E-AGCH Power Offset

The E-AGCH Power Offset IE indicates the Power offset relative to the pilot bits on the DL DPCCH except when F-DPCH is configured. When F-DPCH is configured, the E-AGCH Power Offset IE indicates the Power offset relative to the power of transmitted TPC bits on the F-DPCH.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

E-AGCH Power Offset

INTEGER (0..255,…)

Unit: dB.

Range: -32 .. +31.75 dB.

Step: 0.25 dB.

9.2.2.61A E-AGCH Table Choice

The E-AGCH Table Choice IE indicates the choice of the E-AGCH table in TS 25.212 [9].

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
E-AGCH Table Choice	M		ENUMERATED (Table 16B, Table 16B-1, …)	Table 16B indicates the Table 16B: Mapping of Absolute Grant Value in [9] and Table 16B-1 indicates the Table 16B.1: Alternative Mapping of Absolute Grant Value in TS 25.212 [9].

9.2.2.62 E-RGCH Power Offset

The E-RGCH Power Offset IE indicates the Power offset relative to the pilot bits on the DL DPCCH except when F-DPCH is configured. When F-DPCH is configured, the E-RGCH Power Offset IE indicates the Power offset relative to the power of transmitted TPC bits on the F-DPCH.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

E-RGCH Power Offset

INTEGER (0..255,…)

Unit: dB.

Range: -32 .. +31.75 dB.

Step: 0.25 dB.

9.2.2.63 E-HICH Power Offset

The E-HICH Power Offset IE indicates the Power offset relative to the pilot bits on the DL DPCCH except when F-DPCH is configured. When F-DPCH is configured, the E-HICH Power Offset IE indicates the Power offset relative to the power of transmitted TPC bits on the F-DPCH.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

E-HICH Power Offset

INTEGER (0..255,…)

Unit: dB.

Range: -32 .. +31.75 dB.

Step: 0.25 dB.

9.2.2.64 E-RGCH 2-Index-Step Threshold

The E-RGCH 2-Index-Step-Threshold IE is used to determine the Serving Grant.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

E-RGCH 2-Index-Step Threshold

INTEGER

(0..37)

Refers to an index in the “SG-Table” (see TS 25.321 [41]).

9.2.2.65 E-RGCH 3-Index-Step Threshold

The E-RGCH 3Iindex-Step-Threshold IE is used to determine the Serving Grant.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

E-RGCH 3-Index-Step Threshold

INTEGER

(0..37)

Refers to an index in the “SG-Table” (see TS 25.321 [41]).

9.2.2.66 HARQ Info for E-DCH

The HARQ Info for E-DCH is used to indicate the use of redundancy version (RV) for the EDCH HARQ transmissions.

IE/Group name

Presence

Range

IE Type and Reference

Semantics description

HARQ Info for E-DCH

ENUMERATED (rv0, rvtable)

“rv0” indicates that the UE will only use E_DCH RV index 0.

“rvtable” indicates that the UE will use an RSN based RV index as specified in TS 25.212 [9].

9.2.2.67 DCH Indicator For E-DCH-HSDPA Operation

The DCH Indicator For E-DCH-HSDPA Operation parameter indicates whether DCH Information IE should be ignored in the message in which the DCH Indicator For E-DCH-HSDPA Operation IE is included.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
DCH Indicator For E-DCH-HSDPA Operation			ENUMERATED (DCH not present)

9.2.2.68 E-RGCH and E-HICH Channelisation Code Validity Indicator

The E-RGCH and E-HICH Channelisation Code Validity Indicator parameter indicates if the E-RGCH/E-HICH Channelisation Code IE shall be ignored in the E-DCH FDD DL Control Channel Information IE in which the E-RGCH and E-HICH Channelisation Code Validity Indicator IE was included.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
E-RGCH and E-HICH Channelisation Code Validity Indicator			ENUMERATED (E-RGCH and E-HICH Channelisation Code not valid)

9.2.2.69 E-DCH Minimum Set E-TFCI Validity Indicator

The E-DCH Minimum Set E-TFCI Validity Indicator parameter indicates if the E-DCH Minimum Set E-TFCI IE shall be ignored in the E-DCH Transport Format Combination Set Information IE in which the E-DCH Minimum Set E-TFCI Validity Indicator IE was included.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
E-DCH Minimum Set E-TFCI Validity Indicator			ENUMERATED (E-DCH Minimum Set E-TFCI not valid)

9.2.2.70 Fast Reconfiguration Mode

The Fast Reconfiguration Mode IE is used to notify the DRNS that the SRNC would like to use the activation time “when the UE is detected on the new configuration” as the timing for the reconfiguration.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Fast Reconfiguration Mode

ENUMERATED (

Fast)

9.2.2.71 Fast Reconfiguration Permission

The Fast Reconfiguration Permission IE is used to indicate to the SRNC that the DRNS can apply the activation time “when the UE is detected on the new configuration” for this reconfiguration.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Fast Reconfiguration Permission

ENUMERATED (

Allowed)

9.2.2.72 Continuous Packet Connectivity DTX-DRX Information

The Continuous Packet Connectivity DTX-DRX Information IE defines the parameters used for Continuos Packet Connectivity DTX-DRX operation (see TS 25.214 [10]).

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
UE DTX DRX Offset	M		INTEGER (0..159)	Units of subframes. Offset of the UE DTX and DRX cycles at the given TTI.	–
Enabling Delay	M		ENUMERATED (0, 1, 2, 4, 8, 16, 32, 64, 128)	Units of radio frames.	–
DTX Information		1
>CHOICE E-DCH TTI Length	M				–
>>2ms					–
>>>UE DTX Cycle 1	M		ENUMERATED (1, 4, 5, 8, 10, 16, 20)	Units of subframes.	–
>>>UE DTX Cycle 2	M		ENUMERATED (4, 5, 8, 10, 16, 20, 32, 40, 64, 80, 128, 160)	Units of subframes.	–
>>>MAC DTX Cycle	M		ENUMERATED (1, 4, 5, 8, 10, 16, 20)	Units of subframes.	–
>>10ms					–
>>>UE DTX Cycle 1	M		ENUMERATED (1, 5, 10, 20)	Units of subframes.	–
>>>UE DTX Cycle 2	M		ENUMERATED (5, 10, 20, 40, 80, 160)	Units of subframes.	–
>>>MAC DTX Cycle	M		ENUMERATED (5, 10, 20)	Units of subframes.	–
>Inactivity Threshold for UE DTX Cycle 2	M		ENUMERATED (1, 4, 8, 16, 32, 64, 128, 256)	Units of E-DCH TTIs.	–
>UE DTX Long Preamble	M		ENUMERATED (2,4,15)	Units of slots.	–
>MAC Inactivity Threshold	M		ENUMERATED (1, 2, 4, 8, 16, 32, 64, 128, 256, 512, Infinity)	Units of E-DCH TTIs.	–
>CQI DTX Timer	M		ENUMERATED (0, 1, 2, 4, 8, 16, 32, 64, 128, 256, 512, Infinity)	Units of subframes.	–
>UE DPCCH burst1	M		ENUMERATED (1, 2, 5)	Units of subframes.	–
>UE DPCCH burst2	M		ENUMERATED (1, 2, 5)	Units of subframes.	–
DRX Information		0..1
>UE DRX Cycle	M		ENUMERATED (4, 5, 8, 10, 16, 20)	Units of subframes.	–
>Inactivity Threshold for UE DRX Cycle	M		ENUMERATED (0, 1, 2, 4, 8, 16, 32, 64, 128, 256, 512)	Units of subframes.	–
>Inactivity Threshold for UE Grant Monitoring	M		ENUMERATED (0, 1, 2, 4, 8, 16, 32, 64, 128, 256)	Units of E-DCH TTIs.	–
>UE DRX Grant Monitoring	M		BOOLEAN	True: DRX Grant Monitoring shall be applied. False: DRX Grant Monitoring shall not be applied.	–
>UE DRX Cycle 2	O		ENUMERATED (v4, v5, v8, v10, v16, v20)	Units of subframes, refer to TS 25.331 [16].	YES	ignore
>Inactivity Threshold for UE DRX Cycle 2	O		ENUMERATED (v0, v1, v2, v4, v8, v16, v32, v64, v128, v256, v512)	Units of subframes, refer to TS 25.331 [16].	YES	ignore

9.2.2.73 Continuous Packet Connectivity DTX-DRX Information To Modify

The Continuous Packet Connectivity DTX-DRX Information To Modify IE is used for modification of Continuous Packet Connectivity DTX-DRX information in a UE Context. The Continuous Packet Connectivity DTX-DRX Information To Modify IE shall include at least one of the following IE.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
UE DTX DRX Offset	O		INTEGER (0..159)	Units of subframes. Offset of the UE DTX and DRX cycles at the given TTI.	–
Enabling Delay	O		ENUMERATED (0, 1, 2, 4, 8, 16, 32, 64, 128)	Units of radio frames.	–
CHOICE DTX Information To Modify	O				–
>Modify
>>CHOICE E-DCH TTI Length	O				–
>>>2ms					–
>>>>UE DTX Cycle 1	O		ENUMERATED (1, 4, 5, 8, 10, 16, 20)	Units of subframes.	–
>>>>UE DTX Cycle 2	O		ENUMERATED (4, 5, 8, 10, 16, 20, 32, 40, 64, 80, 128, 160)	Units of subframes.	–
>>>>MAC DTX Cycle	O		ENUMERATED (1, 4, 5, 8, 10, 16, 20)	Units of subframes.	–
>>>10ms					–
>>>>UE DTX Cycle 1	O		ENUMERATED (1, 5, 10, 20)	Units of subframes.	–
>>>>UE DTX Cycle 2	O		ENUMERATED (5, 10, 20, 40, 80, 160)	Units of subframes.	–
>>>>MAC DTX Cycle	O		ENUMERATED (5, 10, 20)	Units of subframes.	–
>>Inactivity Threshold for UE DTX Cycle 2	O		ENUMERATED (1, 4, 8, 16, 32, 64, 128, 256)	Units of E-DCH TTIs.	–
>>UE DTX Long Preamble	O		ENUMERATED (2,4,15)	Units of slots.	–
>>MAC Inactivity Threshold	O		ENUMERATED (1, 2, 4, 8, 16, 32, 64, 128, 256, 512, Infinity)	Units of E-DCH TTIs	–
>>CQI DTX Timer	O		ENUMERATED (0, 1, 2, 4, 8, 16, 32, 64, 128, 256, 512, Infinity)	Units of subframes.	–
>>UE DPCCH burst1	O		ENUMERATED (1, 2, 5)	Units of subframes.	–
>>UE DPCCH burst2	O		ENUMERATED (1, 2, 5)	Units of subframes.	–
>Deactivate					–
CHOICE DRX Information To Modify	O				–
>Modify					–
>>UE DRX Cycle	O		ENUMERATED (4, 5, 8, 10, 16, 20)	Units of subframes.	–
>>Inactivity Threshold for UE DRX Cycle	O		ENUMERATED (0, 1, 2, 4, 8, 16, 32, 64, 128, 256, 512)	Units of subframes.	–
>>Inactivity Threshold for UE Grant Monitoring	O		ENUMERATED (0, 1, 2, 4, 8, 16, 32, 64, 128, 256)	Units of E-DCH TTIs.	–
>>UE DRX Grant Monitoring	O		BOOLEAN	True = DRX Grant Monitoring shall be applied. False = DRX Grant Monitoring shall not be applied.	–
>>UE DRX Cycle 2	O		ENUMERATED ( v4, v5, v8, v10, v16, v20)	Units of subframes, refer to TS 25.331 [16].	YES	ignore
>>Inactivity Threshold for UE DRX Cycle 2	O		ENUMERATED (v0, v1, v2, v4, v8, v16, v32, v64, v128, v256, v512)	Units of subframes, refer to TS 25.331 [16].	YES	ignore
>Deactivate			NULL

9.2.2.74 Continuous Packet Connectivity HS-SCCH less Information

The Continuous Packet Connectivity HS-SCCH less Information IE defines the parameters used for Continuos Packet Connectivity HS-SCCH less operation (see TS 25.214 [10]).

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Transport Block Size List		1..<maxNrOfHS-DSCHTBSs-HS-SCCHless>
>Transport Block Size Index	M		INTEGER (1..maxNrOfHS-DSCHTBSs)
>HS-PDSCH Second Code Support	M		BOOLEAN	True = The second HS-PDSCH code shall also be used. False = The second HS-PDSCH code shall not be used.

Range Bound	Explanation
maxNrOfHS-DSCHTBSs-HS-SCCHless	Maximum number of HS-DSCH Transport Block Sizes used for HS-SCCH-less operation.
maxNrOfHS-DSCHTBSs	Maximum number of HS-DSCH Transport Block Sizes.

9.2.2.75 Continuous Packet Connectivity HS-SCCH less Information Response

The Continuous Packet Connectivity HS-SCCH less Information Response IE provides information for HS-SCCH less operation determined within the Node B (see TS 25.214 [10]).

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
HS-PDSCH First Code Index	M		INTEGER (1..maxHS-PDSCHCodeNrComp-1)	Index of first HS-PDSCH code.
HS-PDSCH Second Code Index	O		INTEGER (1..maxHS-PDSCHCodeNrComp-1)	Index of second HS-PDSCH code. See Note 1.
NOTE 1: The “HS-PDSCH second code index” value is the value of IE “HS-PDSCH First Code Index” incremented by 1.

Range Bound	Explanation
maxHS-PDSCHCodeNrComp	Maximum number of codes at the defined spreading factor, within the complete code tree.

9.2.2.75A Continuous Packet Connectivity HS-SCCH Less Deactivate Indicator

The Continuous Packet Connectivity HS-SCCH Less Deactivate Indicator IE is used to deactive HS-SCCH less operation.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Continuous Packet Connectivity HS-SCCH Less Deactivate Indicator	M		NULL

9.2.2.76 MIMO Activation Indicator

Void

9.2.2.77 MIMO Mode Indicator

Void

9.2.2.78 MIMO Information Response

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
CHOICE Pilot Configuration	M
>Primary and Secondary CPICH
>>MIMO S-CPICH Channelisation Code	M		INTEGER (0..255)
>Normal and Diversity Primary CPICH			NULL
MIMO N/M Ratio	M		ENUMERATED (1/2, 2/3, ¾, 4/5, 5/6, 6/7, 7/8, 8/9, 9/10, 1/1,…)
Additional Associated Secondary CPICH		0..<maxSCPICHCell-1>		For the additional secondary CPICHs.
>Additional Associated S-CPICH Channelisation Code	M		INTEGER (0..255)
>Additional Associated D-CPICH Channelisation Code	O		INTEGER (0..255)

Range Bound	Explanation
maxSCPICHCell	Maximum number of Secondary CPICHs that can be defined in a Cell.

9.2.2.79 SixtyfourQAM DL Support Indicator

Void.

9.2.2.79A Sixtyfour QAM Usage Allowed Indicator

The Sixtyfour QAM Usage Allowed Indicator IE indicates whether the Node B is allowed to use 64 QAM modulation for HS-DSCH transmission or not.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Sixtyfour QAM Usage Allowed Indicator	M		ENUMERATED (Allowed, Not-Allowed)

9.2.2.79B SixtyfourQAM DL Usage Indicator

The SixtyfourQAM DL Usage Indicator IE indicates if the Node B is using 64 QAM modulation for the HS-DSCH transmission, or if the Node B is not using 64 QAM modulation.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
SixtyfourQAM DL Usage Indicator			ENUMERATED (SixtyfourQAM DL Used, SixtyfourQAM DL Not Used)

9.2.2.80 Enhanced FACH Support Indicator

Void.

9.2.2.81 Enhanced PCH Support Indicator

Void.

9.2.2.82 Priority Queue Information for Enhanced FACH/PCH

Void.

9.2.2.83 SixteenQAM UL Information

Void.

9.2.2.84 SixteenQAM UL Information To Modify

Void.

9.2.2.85 F-DPCH Slot Format

The F-DPCH Slot Format IE defines the F-DPCH slot format for the TPC bits, as defined in TS 25.211 [8].

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
F-DPCH Slot Format			INTEGER (0..9)

9.2.2.86 F-DPCH Slot Format Support Request

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
F-DPCH Slot Format Support Request			NULL

9.2.2.87 Max UE DTX Cycle

The Max UE DTX Cycle IE defines the maximum UE DTX cycle supported by the Node B for Continuous Packet Connectivity DTX-DRX operation.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Max UE DTX Cycle	M		ENUMERATED (v5, v10, v20, v40, v64, v80, v128, v160,…,v256,v320,v512,v640,v1024,v1280)	Units of subframes.

9.2.2.88 Enhanced PCH Capability

Void.

9.2.2.89 MAC-ehs Reset Timer

Void.

9.2.2.90 SixteenQAM UL Operation Indicator

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
SixteenQAM UL Operation Indicator	O		ENUMERATED (Activate, Deactivate)

9.2.2.90a SixtyfourQAM UL Operation Indicator

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
SixtyfourQAM UL Operation Indicator	O		ENUMERATED (Activate, Deactivate)

9.2.2.91 E-TFCI Boost Information

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
E-TFCI BetaEC Boost	M		INTEGER (0..127,…)	E-TFCI threshold beyond which boosting of E-DPCCH is enabled.
UL Delta T2TP	C-E-TFCIboost127		INTEGER (0..6,…)	Total E-DPDCH power across all codes to the combined power of DPCCH and E-DPCCH.

Condition	Explanation
E-TFCIboost127	The IE shall be present if the E-TFCI BetaEC Boost IE value is not set o 127.

9.2.2.92 Common E-DCH Support Indicator

This IE indicates the Common E-DCH Support.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Common E-DCH Support Indicator			NULL

9.2.2.93 Common E-DCH MAC-d Flow Specific Information

The Common E-DCH MAC-d Flow Specific Information IE provides information associated to Common E-DCH MAC-d Flow used for Common E-DCH.

IE/Group Name	Presence	*Range*	IE Type and Reference	Semantics Description
Common E-DCH MAC-d Flow Specific Information		1..<maxNrOfEDCHMACdFlows>
>Common E-DCH MAC-d Flow ID	M		E-DCH MAC-d flow 9.2.1.91
>Maximum Number of Retransmissions for E-DCH	M		9.2.1.100
>E-DCH HARQ Power Offset FDD	M		9.2.2.4L
>E-DCH MAC-d Flow Multiplexing List	O		9.2.1.89
>Common E-DCH Logical Channel information	M	1..<maxNoOfLogicalChannels>
>>Logical Channel ID	M		9.2.1.97
>>Maximum MAC-d PDU Size Extended	M		MAC PDU Size Extended 9.2.1.34D

Range bound	Explanation
maxNrOfEDCHMACdFlows	Maximum number of E-DCH MAC-d Flows.
maxNoOfLogicalChannels	Maximum number of logical channels.

9.2.2.94 Counting Information

The Counting Information IE provides counting result for MBMS service for each cell.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Counting Information		1..<maxNrOfFDDNeighboursPerRNC>
>C-ID	M		9.2.1.6
>Counting Result	M		INTEGER (0..63)	The number of Ues listen to the MBMS Service. If the number of the UE is more than 63, this IE set to 63.

Range bound	Explanation
maxNrOfFDDNeighboursPerRNC	Maximum number of neighbouring FDD cell for one cell.

9.2.2.95 Transmission Mode Information

The Transmission Mode Information IE provides transmission mode for MBMS service for each cell.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Counting Information		1..<maxNrOfFDDNeighboursPerRNC>
>C-ID	M		9.2.1.6
>Transmission Mode	M		9.2.1.81

Range bound	Explanation
maxNrOfFDDNeighboursPerRNC	Maximum number of neighbouring FDD cell for one cell.

9.2.2.96 MBMS Neighbouring Cell Information

The parameter contains information for the MBMS p-t-m radio bearer configuration procedure as defined in TS 25.331 [16].

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
MBMS Neighbouring Cell Information
>MBMS Concatenated Service List		1..<maxlengthMBMSconcatservlists >		TMGI shall be uniquely defined by a reference to this index from the MBMS short transmission identity IE (TS 25.331 [16]) in the L3 Information IE.
>>TMGI	M		9.2.1.80
>L3 Information	O		9.2.1.32	The IE Contains MBMS Common p-t-m rb Information defined in TS 25.331 [16].
>L3 Information	O		9.2.1.32	The IE Contains MBMS Current Cell p-t-m rb Information defined in TS 25.331 [16].

Range bound	Explanation
maxlengthMBMSconcatservlists	Maximum length of the concatenated service lists contained in MBMS MODIFIED SERVICES INFORMATION and the MBMS UNMODIFIED SERVICES INFORMATION messages defined in TS 25.331 [16].

9.2.2.97 RLC Sequence Number

This parameter indicates the RLC Sequence Number.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
RLC Sequence Number			INTEGER (0..127)

9.2.2.98 Time Stamp

This parameter indicates the Time Stamp used for Inter-RNC MBMS synchronisation.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Time Stamp			INTEGER (0..9999)	Units: 10ms.

9.2.2.99 HS-DSCH Preconfiguration Info

The HS-DSCH Preconfiguration Info IE provides information of the target cell preconfiguration in the DRNS as defined in TS 25.331 [16].

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
Sets of HS-SCCH Codes		1…<maxNrOfHSDSCH>		Index 1 refers to the serving HS-DSCH cell Index 2…<maxNrOfHSDSCH> refer to secondary serving HS-DSCH cells in the order as listed in 9.2.2.100 HS-DSCH Preconfiguration Setup. Max index is 4 in this 3GPP release.	–
>HS-SCCH Preconfigured Codes		1..<maxNrOfHSSCCHCodes>			–
>>Code Number	M		INTEGER (0..127)		–
>HS-DSCH-RNTI	M		9.2.1.31J		–
>HS-PDSCH And HS-SCCH Scrambling Code	M		DL Scrambling Code 9.2.2.11		–
>SixtyfourQAM DL Support Indicator	O		9.2.1.123		–
>SixtyfourQAM DL Usage Indicator	O		9.2.2.79B		–
>HS-DSCH TB Size Table Indicator	O		9.2.2.19G		–
>MIMO Information Response	O		9.2.2.78	Applicable for multicarrier mode of operation.	YES	ignore
>Power Offset For S-CPICH for MIMO	O		9.2.2.104	Applicable for multicarrier mode of operation. The "Power Offset For S-CPICH for MIMO" in the index 1 of "Sets of HS-SCCH Codes" shall be ignored.	YES	ignore
>Measurement Power Offset	O		9.2.2.24d		YES	ignore
>Power Offset For S-CPICH for MIMO with four transmit antennas	O		9.2.2.148	Applicable for multicarrier mode of operation. The "Power Offset For S-CPICH for MIMO" in the index 1 of "Sets of HS-SCCH Codes" shall be ignored.	YES	ignore
HARQ Memory Partitioning	M		9.2.1.116		–
E-DCH FDD DL Control Channel Information	O		9.2.2.4D	For the primary UL frequency in Dual-cell E-DCH mode of operation.	–
HARQ Preamble Mode Activation Indicator	O		9.2.2.58		–
MIMO Information Response	O		9.2.2.78	Only applicable for MIMO in singe carrier mode of operation. Shall be ignored in multicarrier mode of operation.	–
Continuous Packet Connectivity HS-SCCH less Information Response	O		9.2.2.75		–
Power Offset For S-CPICH for MIMO	O		9.2.2.104	For the serving HS-DSCH cell in both the single carrier mode and multicarrier mode of operation.	YES	ignore
Additional E-DCH Preconfiguration Information		0..<maxNrOfEDCH-1>		For E-DCH on multiple frequencies in this DRNS. E-DCH on Secondary uplink frequency – max 1 in this 3GPP release. Index 1 correspond to the secondary serving HS-DSCH cells with index 2 in the IE Sets of HS-SCCH Codes. The list is in the order as listed in 9.2.2.100 HS-DSCH Preconfiguration Setup.	EACH	ignore
>E-DCH FDD DL Control Channel Information	M		9.2.2.4D	For the secondary UL frequency In Dual-cell E-DCH mode of operation.	–
Support of Dynamic DTXDRX Related HS-SCCH Order	O		9.2.2.129		YES	ignore
Power Offset For S-CPICH for MIMO with four transmit antennas	O		9.2.2.148	For the serving HS-DSCH cell in both the single carrier mode and multicarrier mode of operation.	YES	ignore
F-TPICH Information Response	O		9.2.2.143		YES	ignore

Range bound	Explanation
maxNrOfHSSCCHCodes	Maximum number of HS-SCCH codes
maxNrOfHSDSCH	Maximum number of Primary Serving plus Secondary Serving HS-DSCH cells for one UE
maxNrOfEDCH-1	Maximum number of uplink frequencies -1 for E-DCH for one UE

9.2.2.100 HS-DSCH Preconfiguration Setup

The HS-DSCH Preconfiguration Setup IE indicates that the DRNS shall preconfigure set(s) of HS-SCCH codes and may contain a list of secondary serving, assisting serving, and assisting secondary serving HS-DSCH cells to be preconfigured for Enhanced Service Cell Change. The Cell Change procedure for Dual Cell operation is described in TS 25.308 [63]

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
MAC-hs/ehs reset scheme	M		ENUMERATED (Always, Inter Node B Change)	MAC-hs/ehs reset handling at enhanced HS serving cell change: “Always” means always reset “Inter Node B Change” means Only reset at inter Node B cell change.	–
HS-DSCH Physical Layer Category	M		9.2.1.30Oa		–
MAC-hs Reordering Buffer Size for RLC-UM	M		9.2.1.34Ab		–
Secondary Cells		0..<maxNrOfHSDSCH-1>		Preconfigured secondary serving HS-DSCH cell. maxNrOfHSDSCH-1 is max 3 in this 3GPP release.	–
>Secondary C-ID	M		C-ID 9.2.1.6	C-ID of the preconfigured secondary serving HS-DSCH cell.	–
>Num Secondary HS-SCCH Codes	O		INTEGER (1..maxNrOfHSSCCHCodes)	For the secondary serving HS-DSCH cell.	–
>Sixtyfour QAM Usage Allowed Indicator	O		9.2.2.79A	For the secondary serving HS-DSCH cell.	–
>MIMO Activation Indicator	O		9.2.1.134	For the secondary serving HS-DSCH cell.	YES	ignore
>E-DCH Indicator	O		NULL	The secondary serving HS-DSCH cell shall be pre-configured with E-DCH.	YES	ignore
>Power Offset For S-CPICH for MIMO Request Indicator	O		9.2.2.105	For the secondary serving HS-DSCH cell.	YES	ignore
>Ordinal Number Of Frequency	O		INTEGER (1..32,…)	Value = "1" indicates 1st secondary serving HS-DSCH cell, Value = "2" indicates 2nd secondary serving HS-DSCH cell etc. TS 25.214 [10]. The IE shall be ignored by the Node B if the new configuration contains one secondary serving radio link.	YES	ignore
>MIMO with four transmit antennas Activation Indicator	O		9.2.2.145	For the secondary serving HS-DSCH cell	YES	ignore
>Dual Stream MIMO with four transmit antennas Activation Indicator	O		9.2.2.149	For the secondary serving HS-DSCH cell	YES	ignore
>Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator	O		9.2.2.147	For the secondary serving HS-DSCH cell	YES	ignore
>Multiflow Ordinal Number Of Frequency	O		INTEGER (1..32,…)	In intra-Node B multiflow case, the Value specifies the index of the secondary serving or assisting serving or assisting secondary serving HS-DSCH cell for the UL HS-DPCCH as specified in TS 25.212. In inter-Node B multiflow case, if present, the Value must be “1” when there is one secondary serving HS-DSCH cell. Otherwise the Value specifies the index of this cell for the UL HS-DPCCH as specified in TS 25.212.	YES	ignore
Num Primary HS-SCCH Codes	O		INTEGER (1.. maxNrOfHSSCCHCodes)	For the primary serving HS-DSCH cell.	–
HARQ Preamble Mode	O		9.2.2.57		–
MIMO Activation Indicator	O		9.2.1.134	In multicarrier mode of operation the IE is for the serving HS-DSCH cell.	–
HS-DSCH MAC-d PDU Size Format	O		9.2.1.30OC	If not present, “Indexed MAC-d PDU Size” shall be assumed.	–
Sixtyfour QAM Usage Allowed Indicator	O		9.2.2.79A	For the serving HS-DSCH cell.	–
UE with enhanced HS-SCCH support indicator	O		NULL	UE supports enhanced HS-SCCH functionality: – UE supports different HS-SCCH in consecutive TTIs and, – in HS-SCCH-less operation mode the UE supports HS-SCCH orders.	–
Continuous Packet Connectivity HS-SCCH less Information	O		9.2.2.74		–
UE Support Indicator Extension	O		9.2.2.103		YES	ignore
Power Offset For S-CPICH for MIMO Request Indicator	O		9.2.2.105	For the serving HS-DSCH cell in both the single carrier mode and multicarrier mode of operation.	YES	ignore
MIMO with four transmit antennas Activation Indicator	O		9.2.2.145	In multicarrier mode of operation the IE is for the serving HS-DSCH cell	YES	ignore
Dual Stream MIMO with four transmit antennas Activation Indicator	O		9.2.2.149	In multicarrier mode of operation the IE is for the serving HS-DSCH cell	YES	ignore
Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator	O		9.2.2.147	For the serving HS-DSCH cell in both the single carrier mode and multicarrier mode of operation.	YES	ignore
Multiflow Information	O		9.2.2.152		YES	ignore
F-TPICH Information	O		9.2.2.139		YES	ignore
UL CLTD Information	O		9.2.2.131		YES	ignore
UL MIMO Information	O		9.2.2.159		YES	ignore
SixteenQAM UL Operation Indicator	O		9.2.2.90		YES	ignore
SixtyfourQAM UL Operation Indicator	O		9.2.2.90a		YES	ignore

Range bound	Explanation
maxNrOfHSDSCH-1	Maximum number of Secondary Serving HS-DSCH cells for one UE.
maxNrOfHSSCCHCodes	Maximum number of HS-SCCH codes.

9.2.2.101 Secondary Serving Cell List

This Secondary Serving Cell List IE identifies the possible secondary serving HS-DSCH cells for a Multi Cell/Dual-Band capable cell that is able to serve as a serving HS-DSCH cell.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
Possible Secondary Serving Cell List		1..<maxNrOfHSDSCH-1>		For secondary serving HS-DSCH cell.	–
>Possible Secondary Serving Cell	M		C-ID 9.2.1.6		–
>Multicell E-DCH Restriction	O		BOOLEAN	TRUE means restricted FALSE or not included means no restrictions.	YES	ignore

Range bound

Explanation

maxNrOfHSDSCH-1

Maximum number of Secondary Serving HS-DSCH cells for one UE.

See NOTE below.

NOTE: In this case, “maxNrOfHSDSCH-1” represents the maximum number of possible secondary serving cells for a Multi Cell/Dual-Band capable cell.

9.2.2.102 Minimum Reduced E-DPDCH Gain Factor

The minimum gain factor (β_{ed,k,reduced,min}) defined in TS 25.214 [10].

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Minimum Reduced E-DPDCH Gain Factor			ENUMERATED (8/15, 11/15, 15/15, 21/15, 30/15, 42/15, 60/15, 84/15, …)

9.2.2.103 UE Support Indicator Extension

The UE Support Indicator Extension IE is used to indicate the support level in the UE for optional HSDPA functions to the DRNS.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

UE support indicator extension

BIT STRING (SIZE(32))

Each bit indicates whether the UE supports a particular HSDPA function or not. The value 1 of a bit indicates that the corresponding functionality is supported in the UE and value 0 indicates that the corresponding functionality is not supported in the UE. Each bit is defined as follows:

the first bit: Different HS-SCCH In Consecutive TTIs Support Indicator,

the second bit: HS-SCCH orders in HS-SCCH-less Operation Support Indicator,

the third bit: RRC Rel-9 (onwards) handling of DL secondary HS-DSCH (de)activation state Support Indicator,

the fourth bit: UE DTXDRX related HS-SCCH orders uniform behavior indicator.

the fifth bit: UE longer HARQ processing time for simultaneous Multiflow and MIMO operation

the sixth bit: UE Blind HARQ Retransmissions Indicator for HSDPA.

Note that undefined bits are considered as a spare bit and spare bits shall be set to 0 by the transmitter and shall be ignored by the receiver.

9.2.2.104 Power Offset For S-CPICH for MIMO

The Power Offset For S-CPICH for MIMO IE indicates the the relative transmit power of the S-CPICH compared to the primary CPICH transmit power, when S-CPICH is used as a phase reference for a second transmit antenna in MIMO mode TS 25.214 [10].

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Power Offset For S-CPICH for MIMO			INTEGER(-6 .. 0)	Offset in dB.

9.2.2.105 Power Offset For S-CPICH for MIMO Request Indicator

The Power Offset For S-CPICH for MIMO Request Indicator IE is present when the SRNC needs the DRNS to supply, if possible, the Power Offset For S-CPICH for MIMO IE when S-CPICH is used as a phase reference for a second transmit antenna in MIMO mode TS 25.214 [10].

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Power Offset For S-CPICH for MIMO Request Indicator			NULL

9.2.2.106 Single Stream MIMO Activation Indicator

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Single Stream MIMO Activation Indicator	M		NULL

9.2.2.107 Single Stream MIMO Mode Indicator

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Single Stream MIMO Mode Indicator			ENUMERATED (Activate, Deactivate)

9.2.2.108 HS-DSCH MAC-ehs Format

Void.

9.2.2.109 Activation Information

The Activation Information IE defines the local activation state of the secondary uplink frequency of the UE in Dual Cell E-DCH operation, or the change request of activation state of the Secondary uplink frequency of the UE in Dual Cell E-DCH operation when E-DCH decoupling is configured.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Activation Information

1..<maxNrOfEDCH-1>

For secondary E-DCH. Max 1 in this 3GPP release.

>Uu Activation State

ENUMERATED

(Activated,

De-activated, …, Change Request)

The activation state of the secondary UL frequency, or change of the activation state of the secondary UL frequency when E-DCH decoupling is configured.

Range Bound	Explanation
maxNrOfEDCH-1	Maximum number of uplink frequencies -1 for E-DCH for one UE.

9.2.2.110 Additional E-DCH FDD Setup Information

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
UL DPCH Information		1			–
>UL Scrambling Code	M		9.2.2.53		–
>UL SIR Target	O		UL SIR 9.2.1.69		–
Additional E-DCH RL Specific Information To Setup	M		9.2.2.115		–
Additional E-DCH FDD Information	O		9.2.2.112		–
F-DPCH Information		1			–
>FDD TPC Downlink Step Size	M		9.2.2.16		–
>Limited Power Increase	M		9.2.2.21A		–
>Inner Loop DL PC Status	M		9.2.2.21a		–
>F-DPCH Slot Format Support Request	O		9.2.2.86		–
Multicell E-DCH Information	O		9.2.2.114		YES	ignore

9.2.2.111 Additional E-DCH Configuration Change Information

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
UL DPCH Information		0..1			–
>UL Scrambling Code	O		9.2.2.53		–
>UL SIR Target	O		UL SIR 9.2.1.69		–
Additional E-DCH RL Specific Information To Add	O		9.2.2.116	Used when the E-DCH RL to add does not exist in the current UE context on the secondary UL frequency.	–
Additional E-DCH RL Specific Information To Modify	O		9.2.2.117	Used when an existing E-DCH RL on the secondary UL frequency is modified.	–
Additional E-DCH FDD Information To Modify	O		Additional E-DCH FDD Information 9.2.2.112	Used to modify the current additional E-DCH configuration with or without a new RL added in this procedure.	–
F-DPCH Information		0..1			–
>FDD TPC Downlink Step Size	M		9.2.2.16		–
>Limited Power Increase	M		9.2.2.21A		–
>Inner Loop DL PC Status	M		9.2.2.21a		–
>F-DPCH Slot Format Support Request	O		9.2.2.86		–
Multicell E-DCH Information	O		9.2.2.114		YES	ignore

9.2.2.112 Additional E-DCH FDD Information

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
HARQ Process Allocation For 2ms Scheduled Transmission Grant	O		HARQ Process Allocation for 2ms TTI 9.2.2.4O		–
E-DCH Maximum Bitrate	O		9.2.2.4MG		–
E-DCH Processing Overload Level	O		9.2.1.95		–
E-DCH Minimum Set E-TFCI	O		INTEGER (0..127)	For the concept of “E-DCH Minimum Set of TFCs” see TS 25.321 [41] and TS 25.331 [16].	–
DTX Information2		0..1
>UE DTX Cycle 1	M		ENUMERATED (v1, v4, v5, v8, v10, v16, v20,…)	Units of subframes, refer to TS 25.331 [16].	YES	ignore
>UE DTX Cycle 2	M		ENUMERATED (v4, v5, v8, v10, v16, v20, v32, v40, v64, v80, v128, v160, v256, v320, v512, v640, v1024, v1280, …)	Units of subframes, refer to TS 25.331 [16].	YES	ignore
>Inactivity Threshold for UE DTX Cycle 2	M		ENUMERATED (v1, v4, v8, v16, v32, v64, v128, v256, …)	Units of E-DCH TTIs, refer to TS 25.331 [16].	YES	ignore
Implicit Grant handling	O		ENUMERATED (true)	The presence of this information element indicates that Implicit Grant handling is configured on the secondary uplink frequency	YES	ignore
Minimum TEBS threshold	O		ENUMERATED (v2, v4, v8, v16, v32, v64, v128, v256, v512, v1024, v2K, v4K, v8K, v16K, v32K, v64K, v128K, v256K, v512K, v1024K,…)	In bytes And N Kbytes = N*1024 bytes. Twelve spare values are needed, refer to TS 25.331 [16].	YES	ignore
Dual Cell E-DCH Operation Enhancements Information	O		9.2.2.194		YES	reject

9.2.2.113 Multicell E-DCH Transport Bearer Mode

This parameter indicates the Multicell E-DCH Transport Bearer Mode. For Multicell E-DCH Transport Bearer Mode = “Separate Iur Transport Bearer Mode” the Mac-d flows from each carrier uses different Iur transport bearers, for Multicell E-DCH Transport Bearer Mode = “UL Flow Multiplexing Mode” the Mac-d flows received on the different carriers in the DRNS is multiplexed on one Iur transport bearer (per Mac-d flow). The SRNC should apply the stored cell capabilities for the cell on primary UL frequency for the capabilities related to Multicell E-DCH Transport Bearer Mode.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Multicell E-DCH Transport Bearer Mode			ENUMERATED (Separate Iur Transport Bearer Mode, UL Flow Multiplexing Mode)

9.2.2.114 Multicell E-DCH Information

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
DL Power Balancing Information	O		9.2.2.10A
Minimum Reduced E-DPDCH Gain Factor	O		9.2.2.102
Secondary UL Frequency Activation State	O		ENUMERATED (Activated, Deactivated,…)
F-DPCH Slot Format	O		9.2.2.85
Common DL Reference Power	O		DL power 9.2.1.21A	Power on F-DPCH.

9.2.2.115 Additional E-DCH RL Specific Information To Setup

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
E-DCH Additional RL Specific Information		1..<maxNrOfEDCHRLs>			–
>E-DCH Additional RL ID	M		RL ID 9.2.1.49		–
>C-ID	O		9.2.1.6		–
>First RLS Indicator	M		9.2.2.16A		–
>Propagation Delay	O		9.2.2.33		–
>Initial DL Tx Power	O		DL Power 9.2.1.21A
>Primary CPICH Ec/No	O		9.2.2.32		–
>E-AGCH Power Offset	O		9.2.2.61		–
>E-RGCH Power Offset	O		9.2.2.62		–
>E-HICH Power Offset	O		9.2.2.63		–
>Additional E-DCH MAC-d Flow Specific Information	O		9.2.2.118		–
>Multicell E-DCH RL Specific Information	O		9.2.2.119		YES	ignore
>TPC slot position	O		9.2.2.193		YES	ignore

Range bound	Explanation
maxNrOfEDCHRLs	Maximum number of E-DCH RLs for one UE

9.2.2.116 Additional E-DCH RL Specific Information To Add

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
E-DCH Additional RL Specific Information To Add		1..<maxNrOfEDCHRLs>			–
>E-DCH Additional RL ID	M		RL ID 9.2.1.49		–
>C-ID	M		9.2.1.6		–
>Primary CPICH Ec/No	O		9.2.2.32		–
>E-AGCH Power Offset	O		9.2.2.61		–
>E-RGCH Power Offset	O		9.2.2.62		–
>E-HICH Power Offset	O		9.2.2.63		–
>Additional E-DCH MAC-d Flow Specific Information	O		9.2.2.118		–
>Multicell E-DCH RL Specific Information	O		9.2.2.119		YES	ignore
>TPC slot position	O		9.2.2.193		YES	ignore

Range bound	Explanation
maxNrOfEDCHRLs	Maximum number of E-DCH RLs for one UE.

9.2.2.117 Additional E-DCH RL Specific Information To Modify

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
E-DCH Additional RL Specific Information to Modify		1..<maxNrOfEDCHRLs>			–
>E-DCH Additional RL ID	M		RL ID 9.2.1.49		–
>E-AGCH Power Offset	O		9.2.2.61		–
>E-RGCH Power Offset	O		9.2.2.62		–
>E-HICH Power Offset	O		9.2.2.63		–
>Additional E-DCH MAC-d Flow Specific Information	O		9.2.2.118		–
>Multicell E-DCH RL Specific Information	O		9.2.2.119		YES	ignore
>TPC slot position	O		9.2.2.193		YES	ignore

Range bound	Explanation
maxNrOfEDCHRLs	Maximum number of E-DCH RLs for one UE.

9.2.2.118 Additional E-DCH MAC-d Flow Specific Information

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Additional E-DCH MAC-d Flow Specific Information		1..<maxNrOfEDCHMACdFlows>
>E-DCH MAC-d Flow ID	M		9.2.1.91
>Binding ID	O		9.2.1.3
>Transport Layer Address	O		9.2.1.62

Range Bound	Explanation
maxNrOfEDCHMACdFlows	Maximum number of E-DCH MAC-d flows.

9.2.2.119 Multicell E-DCH RL Specific Information

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Extended Propagation Delay	O		9.2.2.33a
Enhanced Primary CPICH Ec/No	O		9.2.2.13I
DL Reference Power	O		DL power 9.2.1.21A
Phase Reference Update Indicator	O		9.2.2.27B
E-DCH DL Control Channel Grant	O		NULL

9.2.2.120 Additional E-DCH FDD Information Response

The Additional E-DCH FDD Information Response IE provides information for new E-DCH radio links on the secondary UL frequency.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Additional E-DCH RL Information Response		1..<maxNrOfEDCHRLs>
>E-DCH Additional RL ID	M		RL ID 9.2.1.49
>Received Total Wide Band Power	M		9.2.2.35A
>DL Power Balancing Activation Indicator	O		9.2.2.10B
>RL Set ID	M		9.2.2.35
>E-DCH RL Set ID	M		RL Set ID 9.2.2.35
>E-DCH FDD DL Control Channel Information	M		9.2.2.4D
>DL Code Information	M		FDD DL Code Information 9.2.2.14A
>Additional E-DCH MAC-d Flow Specific Information Response		0..<maxNrOfEDCHMACdFlows>
>>E-DCH MAC-d Flow ID	M		9.2.1.91
>>Binding ID	O		9.2.1.3
>>Transport Layer Address	O		9.2.1.62
>HARQ Process Allocation For 2ms Scheduled Transmission Grant	O		HARQ Process Allocation for 2ms TTI 9.2.2.4O
>Maximum Uplink SIR	M		Uplink SIR 9.2.1.69
>Minimum Uplink SIR	M		Uplink SIR 9.2.1.69
>Maximum Allowed UL Tx Power	M		9.2.1.35
>Maximum DL TX Power	M		DL Power 9.2.1.21A
>Minimum DL TX Power	M		DL Power 9.2.1.21A
>Primary Scrambling Code	O		9.2.1.45
>UL UARFCN	O		UARFCN 9.2.1.66	Corresponds to Nu in TS 25.104 [6].
>DL UARFCN	O		UARFCN 9.2.1.66	Corresponds to Nd in TS 25.104 [6].
>Primary CPICH Power	M		9.2.1.44
>PC Preamble	M		9.2.2.27a
>Primary CPICH Usage For Channel Estimation	O		9.2.2.32A
>Secondary CPICH Information	O		9.2.2.38A
>F-DPCH Slot Format	O		9.2.2.85

Range bound	Explanation
maxNrOfEDCHRLs	Maximum number of E-DCH RLs for one UE.
maxNrOfEDCHMACdFlows	Maximum number of E-DCH MAC-d flows.

9.2.2.121 Additional Modified E-DCH FDD Information Response

The Additional Modified E-DCH RL Information Response IE provides information for RLs on the secondary UL frequency that has been modified and existied in the UE Context configuration before the reconfiguration procedure.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Additional Modified E-DCH RL Information Response		1..<maxNrOfEDCHRLs>
>E-DCH Additional RL ID	M		RL ID 9.2.1.49
>DL Power Balancing Updated Indicator	O		9.2.2.10D
>E-DCH FDD DL Control Channel Information	O		9.2.2.4D
>Additional E-DCH MAC-d Flow Specific Information Response		0..<maxNrOfEDCHMACdFlows>
>>E-DCH MAC-d Flow ID	M		9.2.1.91
>>Binding ID	O		9.2.1.3
>>Transport Layer Address	O		9.2.1.62
>HARQ Process Allocation For 2ms Scheduled Transmission Grant	O		HARQ Process Allocation for 2ms TTI 9.2.2.4O
>Maximum Uplink SIR	O		Uplink SIR 9.2.1.69
>Minimum Uplink SIR	O		Uplink SIR 9.2.1.69
>Maximum DL TX Power	O		DL Power 9.2.1.21A
>Minimum DL TX Power	O		DL Power 9.2.1.21A
>Primary CPICH Usage For Channel Estimation	O		9.2.2.32A
>Secondary CPICH Information Change	O		9.2.2.38B
>F-DPCH Slot Format	O		9.2.2.85

Range bound	Explanation
maxNrOfEDCHRLs	Maximum number of E-DCH RLs for one UE.
maxNrOfEDCHMACdFlows	Maximum number of E-DCH MAC-d flows.

9.2.2.122 Additional E-DCH FDD Update Information

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
HARQ Process Allocation For 2ms Scheduled Transmission Grant	O		HARQ Process Allocation for 2ms TTI 9.2.2.4O
Additional E-DCH DL Control Channel Change Information		0..<maxNrOfEDCHRLs>
>E-DCH Additional RL ID	M		RL ID 9.2.1.49

Range bound	Explanation
maxNrOfEDCHRLs	Maximum number of E-DCH RLs for one UE.

9.2.2.123 Cell Capability Container Extension FDD

The Cell Capability Container Extension FDD IE is an extension to the Cell Capability Container FDD IE and indicates the cell capability in the same way as Cell Capability Container Extension FDD IE.

The cell capability of multi-cell related functions may depend on that the cell is multi-cell capable (adjacent and/or non-adjacent carrier) or Dual Band capable. Such support indicators in this Cell Capability Container Extension FDD IE shall be ignored by the SRNC if the cell does not have the required support indicated in the Cell Capability Container FDD IE: Multi Cell Support Indicator = "1" and/or Dual Band Support Indicator = "1". Support indicators that depend on multi-cell (adjacent and/or non-adjacent carrier) support are indicated in the table below with /Adjacent-carrier/. Support indicators that depend on Dual Band support are indicated in the table below with /Dual-band/. Support indicators that depend on that the cell supports one or both of multi-cell (adjacent and/or non-adjacent carrier) and Dual Band are indicated in the table below with /Multi-cell/. The marked support indicators indicate the support regardless of the supported multi-cell type in a multicell configuration: supported multi-cell type is – both serving HS-DSCH and secondary serving HS-DSCH, – secondary serving HS-DSCH or – serving HS-DSCH.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Cell Capability Container Extension FDD

BIT STRING (SIZE(128))

The first bit: Cell Specific Tx Diversity Handling For Multi Cell Operation Support Indicator, /Multi-cell/.

The second bit: Multi Cell and MIMO Support Indicator, /Adjacent-carrier/.

The third bit: Multi Cell and Single Stream MIMO Support Indicator, /Adjacent-carrier/.

The fourth bit: Multi Cell E-DCH Support Indicator, /Adjacent-carrier/.

This bit shall be ignored by the SRNC if the fifth bit: Separate Iur Transport Bearer Support Indicator = “0” and the sixth bit: E-DCH UL Flow Multiplexing Support Indicator = “0”

The fifth bit: Separate Iur Transport Bearer Support Indicator, /Adjacent-carrier/.

This bit shall be ignored by the SRNC if the fourth bit: Multi Cell E-DCH Support Indicator = “0”

The sixth bit: E-DCH UL Flow Multiplexing Support Indicator, /Adjacent-carrier/.

This bit shall be ignored by the SRNC if the fourth bit: Multi Cell E-DCH Support Indicator = “0”

The seventh to eleventh bit: Maximum No of HSDPA Frequencies Support Indicator, /Multi-cell/.

This support indicator is coded as the binary representation of the maximum number of HSDPA frequencies, with the seventh bit as the MSB and the eleventh bit as the LSB.

Hexadecimal digit 0 means no support for 3 or more HSDPA carriers. Hexadecimal digits 1 and 2 are reserved.

The twelfth bit: Dual Band and MIMO Support Indicator, /Dual Band/.

The thirteenth bit: HSDPA 3 or more Carrier and MIMO Single Band Support Indicator, /Adjacent-carrier/

The fourteenth bit: HSDPA 3 or more Carrier and MIMO Dual Band Support Indicator, /Dual Band/.

The fifteenth bit: Dual band and Single Stream MIMO Support Indicator,/Dual Band/.

The sixteenth bit: HSDPA 3 or more Carrier and Single Stream MIMO Single Band Support Indicator, /Adjacent-Carrier/.

The seventeenth bit: HSDPA 3 or more Carrier and Single Stream MIMO Dual Band Support Indicator,/Dual Band/.

The eighteenth bit: Frequency Specific Compress Mode Capability/Multi-cell/.

The nineteenth bit: UL CLTD capability.

The twentieth to twenty-second bit: Supported MIMO transmit antennas (N). This capability is coded as the representation of the supported MIMO transmit antennas with the twentieth bit as the MSB and the twentys-econd bit as the LSB. Hexadecimal digit 0 means no support for more than 2 MIMO transmit antennas. Hexadecimal digit 2 means MIMO with four transmit antennas support.

Hexadecimal digit 1 is reserved. Undefined values are considered as spare.

The twenty-third bit: MIMO with N transmit antennas Capability Adjacent-carrier.

The twenty-fourth bit: MIMO with N transmit antennas Capability Dual Band/Dual Band.

The twenty-fifth bit: Multi Cell and MIMO with N transmit antennas Capability Adjacent-carrier.

The twenty-sixth bit: Multi Cell and MIMO with N transmit antennas Capability Dual Band/Dual Band.

The twenty-seventh bit: HSPA 3 or more Carrier and MIMO with N transmit antennas Capability Adjacent-carrier.

The twenty-eighth bit: HSPA 3 or more Carrier and MIMO with N transmit antennas Capability Dual Band/Dual Band.

This 3GPP release supports MIMO with four transmit antennas for up to 4 carriers.

The twenty-ninth bit:

Intra-Node B Multiflow.

The thirtieth bit:

Inter-Node B Multiflow.

The thirty-first to thirty-third bits: Supported Multiflow configuration, where value 0 indicates support for one frequency two cells, value 1 indicates support for two frequencies three cells, value 2 indicates support for two frequencies four cells. Value 3 indicates support for three frequencies four cells. Values 4-7 are reserved for future use.

The thirty-fourth bit: Multiflow and MIMO.

The thirty-fifth bit: Cell Specific Tx Diversity Handling For Multiflow Cell Operation.

The thirty-sixth bit: Multiflow and single stream MIMO.

The thirty-seventh bit: UL SixtyfourQAM capability.

The thirty-eighth bit: UL MIMO capability.

The thirty-ninth bit: UL MIMO and SixteenQAM capability.

The fourtieth bit: UL MIMO and SixtyfourQAM capability.

The forty-first bit: Common E-RGCH capability.

The forty-second bit: E-DCH Decoupling capability.

The forty-third bit: Basic DCH Enhancements Capability [71].

The forty-fourth bit: Full DCH Enhancements Capability [71].

The forty-fifth bit: Radio Links without DPCH/F-DPCH capability.

The forty-sixth bit: UL DPCCH2 capability.

The forty-seventh bit: feEUL TTI switching Node B Autonomous Capability.

The forty-eighth bit: feEUL TTI switching RNC notify Capability.

The forty-ninth bit: downlink TPC enhancements Capability.

The fiftieth bit: NAICS offloading Capability.

The fifty-first bit: Multi Cell E-DCH with DPDCH Capability.

The fifty-second bit: Dual Cell E-DCH operation enhancements with 10ms and 10ms TTI Capability.

The fifty-third bit: Dual Cell E-DCH operation enhancements with different TTI Capability.

The fifty-fourth bit: Simplified HS-SCCH type 1 operation capability.

9.2.2.124 Non-Serving RL Preconfiguration Setup

The Non-Serving RL Preconfiguration Setup IE indicates that the DRNS may preconfigure E-DCH DL Code Information configured for new non-serving RL for Enhanced Service Cell Change and contains the information for the location of new serving RL after the Enhanced Serving Cell Change.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
CHOICE new Serving RL	M				–
>New Serving RL in the DRNS			NULL		–
>New Serving RL Not in the DRNS			NULL		–
>New Serving RL in the DRNS or New Serving RL Not in the DRNS			NULL		–
Additional E-DCH Non-Serving RL Preconfiguration Setup	O		NULL		YES	ignore
F-TPICH Information	O		9.2.2.139		YES	ignore

9.2.2.125 Non-Serving RL Preconfiguration Info

The Non-Serving RL Preconfiguration Info IE provides information for the new non-serving RL after Enhanced Serving Cell Change.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
New non-serving RL E-DCH FDD DL Control Channel Information A	O		9.2.2.4D E-DCH FDD DL Control Channel Information	E-DCH FDD DL Control Channel Information for non-serving RL in Serving E-DCH RLS.	–
New non-serving RL E-DCH FDD DL Control Channel Information B	O		9.2.2.4D E-DCH FDD DL Control Channel Information	E-DCH FDD DL Control Channel Information for non-serving RL in non serving E-DCH RLS in in case serving RL is in the DRNS.	–
New non-serving RL E-DCH FDD DL Control Channel Information C	O		9.2.2.4D E-DCH FDD DL Control Channel Information	E-DCH FDD DL Control Channel Information for non-serving RL in case serving RL is not in the DRNS.	–
Additional E-DCH New non-serving RL E-DCH FDD DL Control Channel Information		0..<maxNrOfEDCH-1>		E-DCH on Secondary uplink frequency – max 1 in this 3GPP release.	EACH	ignore
>New non-serving RL E-DCH FDD DL Control Channel Information A	O		9.2.2.13Dc E-DCH FDD DL Control Channel Information	E-DCH FDD DL Control Channel Information for Additional non-serving RL in Serving E-DCH RLS.	–
>New non-serving RL E-DCH FDD DL Control Channel Information B	O		9.2.2.13Dc E-DCH FDD DL Control Channel Information	E-DCH FDD DL Control Channel Information for Additional non-serving RL in non serving E-DCH RLS in case Additional serving RL is in the DRNS.	–
>New non-serving RL E-DCH FDD DL Control Channel Information C	O		9.2.2.13Dc E-DCH FDD DL Control Channel Information	E-DCH FDD DL Control Channel Information for Additional non-serving RL in case Additional serving RL is not in the DRNS.	–
F-TPICH Information Response	O		9.2.2.143		YES	ignore

Range bound	Explanation
maxNrOfEDCH-1	Maximum number of uplink frequencies -1 for E-DCH for one UE.

9.2.2.126 Void

9.2.2.127 Usefulness of Battery Optimization

This IE, when present, indicates whether the device can benefit from UTRAN-based battery consumption optimisation.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Usefulness of Battery Optimization

ENUMERATED (

CanBenefit,

CannotBenefit

)

9.2.2.128 M1 Report

This IE defines the parameters for M1 report, FDD report of UE radio measurements. This IE is not used by the DRNS.

IE/Group Name	Presence	Range	IE type and reference	Semantics description
M1 Report
>CHOICE Report trigger	M
>>Periodic
>>>MDT Report Parameters	M		9.2.1.140
>>Event1F
>>>Measurement quantity	M		ENUMERATED( CPICH Ec/N0, CPICH RSCP, Pathloss, …)
>>>threshold	M		INTEGER(-120…165)	Range used depends on measurement quantity. CPICH RSCP -120..-25 dBm. CPICH Ec/No -24..0 dB Pathloss 30..165dB.

9.2.2.129 Support of Dynamic DTXDRX Related HS-SCCH Order

The Support of dynamic DTXDRX related HS-SCCH order IE is to indicate if DRNS supports the DRX/DTX related HS-SCCH order for CPC non-uniform UE.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Support of dynamic DTXDRX related HS-SCCH order			ENUMERATED (Supported, Not Supported)

9.2.2.130 UL CLTD Information Reconf

The UL CLTD Information Reconf IE is used for the reconfiguration of the UL CLTD operation in a UE context.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
CHOICE Setup, Configuration Change or Removal of UL CLTD		1
>Setup				Used when UL CLTD is not configured in the current UE Context.
>>UL CLTD Information	M		9.2.2.131
>Configuration Change				Used when the existing UL CLTD configuration in the current UE context is modified.
>>UL CLTD Information To Modify	M		9.2.2.132
>Removal				Used when the existing UL CLTD configuration in the current UE context is removed.
>>UL CLTD Information Removal	M		9.2.2.133

9.2.2.131 UL CLTD Information

The UL CLTD Information IE defines the parameters used for UL CLTD operation.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
S-DPCCH Power Offset Information	M		9.2.2.137
C-ID	C-DCHorMultiflow		9.2.1.6
UL CLTD Activation Information	O		9.2.2.138

Condition	Explanation
DCHorMultiflow	The IE shall be present if there is no serving E-DCH RL or HS-DSCH RL configuration in the concerned UE context. If the Multiflow operation is configured, then this IE may indicate the Multiflow assisting serving cell.

9.2.2.132 UL CLTD Information To Modify

The UL CLTD Information To Modify IE is used for modification of UL CLTD information in a UE Context.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
S-DPCCH Power Offset Information	O		9.2.2.137
C-ID	O		9.2.1.6
UL CLTD Activation Information	O		9.2.2.138

9.2.2.133 UL CLTD Information Removal

The UL CLTD Information Removal IE is used for removal of UL CLTD information in a UE Context.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
UL CLTD Information Removal			ENUMERATED (Remove, …)

9.2.2.134 UL CLTD State Update Information

The UL CLTD State Update Information IE provides information for the activation state of UL CLTD of the UE to be updated.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

UL CLTD State Update Information

ENUMERATED

(Activate,De-activate, …)

The suggested UL CLTD activation state.

9.2.2.135 F-TPICH Slot Format

Indicates the slot format used in F-TPICH in DL, accordingly to TS 25.211 [8].

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
F-TPICH Slot Format			INTEGER (0..9,…)

9.2.2.136 F-TPICH Offset

The F-TPICH Offset is defined as the time offset towards the Primary CCPCH in the cell. The offset is a multiple of 256 chips.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

F-TPICH Offset

INTEGER (0..149)

Range: 0..38144 chips.

Step: 256 chips.

See TS 25.211 [8].

9.2.2.137 S-DPCCH Power Offset Information

The S-DPCCH Power Offset is used to calculate the S-DPCCH gain factor, _sc, as defined in TS 25.214 [10], whereas _scis related to the power difference between DPCCH and S-DPCCH.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
S-DPCCH Power Offset Information			INTEGER (0..6,…)	According to mapping in TS 25.213 [21] subclause 4.2.1.4.

9.2.2.138 UL CLTD Activation Information

The UL CLTD Activation Information IE defines the activation state of the UE in UL CLTD operation.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

>UL CLTD Activation State

ENUMERATED

(Activated,

De-activated, …)

The activation state of the UL CLTD.

9.2.2.139 F-TPICH Information

The F-TPICH Information IE defines the parameters used for F-TPICH configuration.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
F-TPICH Offset	M		9.2.2.136

9.2.2.140 F-TPICH Information To Modify

The F-TPICH Information To Modify IE is used for modification of F-TPICH configuration.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
F-TPICH Offset	O		9.2.2.136

9.2.2.141 F-TPICH Information Removal

The F-TPICH Information Removal IE is used for removal of F-TPICH information of a RL.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
F-TPICH Information Removal			ENUMERATED (Remove, …)

9.2.2.142 F-TPICH Information Reconf

The F-TPICH Information Reconf IE is used for the reconfiguration of the UL CLTD operation of a RL.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
CHOICE Setup, Configuration Change or Removal of F-TPICH Information		1
>Setup				Used when F-TPICH is not configured in the current RL.
>>F-TPICH Information	M		9.2.2.139
>Configuration Change				Used when the existing UL F-TPICH configuration in the current RL is modified.
>>F-TPICH Information To Modify	M		9.2.2.140
>Removal				Used when the existing UL F-TPICH in the current RL is removed.
>>F-TPICH Information Removal	M		9.2.2.141

9.2.2.143 F-TPICH Information Response

The F-TPICH Information Response IE provides F-TPICH information determined within the DRNS.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
F-TPICH Slot Format	M		9.2.2.135
F-TPICH Channelisation Code Number	M		FDD DL Channelisation Code Number 9.2.2.14

9.2.2.144 F-TPICH Reconfiguration Information

The F-TPICH Reconfiguration Information IE provides F-TPICH reconfiguration information triggered by the DRNS.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
F-TPICH Slot Format	O		9.2.2.135
F-TPICH Channelisation Code Number	O		FDD DL Channelisation Code Number 9.2.2.14

9.2.2.145 MIMO with four transmit antennas Activation Indicator

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
MIMO with four transmit antennas Activation Indicator	M		NULL

9.2.2.146 MIMO with four transmit antennas Mode Indicator

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
MIMO with four transmit antennas Mode Indicator	M		ENUMERATED (Activate, Deactivate)

9.2.2.147 Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator

The Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator IE is present when the SRNC needs the DRNS to supply, if possible, the Power Offset For S-CPICH for MIMO with four transmit antennas IE when S-CPICH and additional S-CPICH is used as a phase reference for additional transmit antenna in MIMO with four transmit antennas mode TS 25.214 [10].

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Power Offset For S-CPICH for MIMO with four transmit antennas Request Indicator	M		NULL

9.2.2.148 Power Offset For S-CPICH for MIMO with four transmit antennas

The Power Offset For S-CPICH for MIMO with four transmit antennas IE indicates the the relative transmit power of the Associated S-CPICH compared to the primary CPICH transmit power, when S-CPICH is used as a phase reference for additional transmit antenna in MIMO with four transmit antennas mode TS 25.214 [10].

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Associated Secondary CPICH		1..<maxSCPICHCell>		For MIMO with four transmit antennas. The 3^rd and the 4^th S-CICH should have the same power offset; The 3^rd and the 4^th D-CPICH should have the same power offset.
>Associated S-CPICH Channelisation Code	M		INTEGER (0..255)
>Power Offset for Associated S-CPICH	M		INTEGER (-12..0)	Offset in dB
>Associated D-CPICH Channelisation Code	M		INTEGER (0..255)
>Power Offset for Associated D-CPICH	M		INTEGER (-12..0)	Offset in dB

Range Bound	Explanation
maxSCPICHCell	Maximum number of Secondary CPICHs that can be defined in a Cell.

9.2.2.149 Dual Stream MIMO with four transmit antennas Activation Indicator

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Dual Stream MIMO with four transmit antennas Activation Indicator	M		NULL

9.2.2.150 Dual Stream MIMO with four transmit antennas Mode Indicator

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Dual Stream MIMO with four transmit antennas Mode Indicator	M		ENUMERATED (Activate, Deactivate)

9.2.2.151 Multiflow Reconfiguration

The Multiflow Reconfiguration IE is used setup, reconfigure, and stop Multiflow operation.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
CHOICE Setup, or Change, or Stop		1
>Setup				Used when Multiflow is not configured.
>>Multiflow Information	M		9.2.2.152
>Change				Used when Multiflow configuration changes.
>>Multiflow Information To Modify	M		9.2.2.153
>Stop				Used when the existing Multiflow configuration is removed.
>>Multiflow Stop	M		9.2.2.154

9.2.2.152 Multiflow Information

The Multiflow Information IE defines parameters to setup Multiflow operation.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
Total number of HS-DSCH cells	M		INTEGER (2..32,…)	Total number of HS-DSCH cells configured for Multiflow.	–
Role	M		Multiflow Role 9.2.2.155		–
MIMO	M		Multiflow MIMO 9.2.2.156
Timing	O		Multiflow Timing 9.2.2.157	In the inter-Node B Multiflow case, if present, this IE provides the timing information.
Max number of HS-SCCH sets per Node B	O		INTEGER (1..16,…)	Maximum number of HS-SCCH that can be allocated per Node B	–
Assisting repetition factors	O		Multiflow Repetition Factors 9.2.2.168	Additional HS-DPCCH repetition factors	YES	ignore

9.2.2.153 Multiflow Information To Modify

The Multiflow Information To Modify IE defines parameters to reconfigure Multiflow operation.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description	Criticality	Assigned Criticality
Total number of HS-DSCH cells	O		INTEGER (2..32,…)	Total number of HS-DSCH cells configured for Multiflow.	–
Role	O		Multiflow Role 9.2.2.155		–
MIMO	O		Multiflow MIMO 9.2.2.156
Timing	O		Multiflow Timing 9.2.2.157	In the inter-Node B Multiflow case, if present, this IE provides the timing information.
Max number of HS-SCCH sets per Node B	O		INTEGER (1..16,…)	Maximum number of HS-SCCH that can be allocated per Node B	–
Assisting repetition factors	O		Multiflow Repetition Factors 9.2.2.168	Additional HS-DPCCH repetition factors	YES	ignore

9.2.2.154 Multiflow Stop

The Multiflow Stop IE is used when the Multiflow operation is terminated.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Multiflow Stop	M		ENUMERATED (Stop, …)

9.2.2.155 Multiflow Role

The Multiflow Role IE is used to specify primary or assisting Multiflow operation mode.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Multiflow Role	M		ENUMERATED (Primary, Assisting, …)	This IE indicates whether Node B is configured with the primary serving HS-DSCH cell or assisting serving HS-DSCH cell.

9.2.2.156 Multiflow MIMO

The Multiflow MIMO IE is used to specify whether MIMO is configured for at least one of the cells.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Multiflow MIMO	M		ENUMERATED (ON, OFF, …)

9.2.2.157 Multiflow Timing

The Multiflow Timing IE is used to specify timing information for the Multiflow operation.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
CHOICE Time Reference, or Non-time Reference		1
>Time Reference			NULL	This indicates that the cell in the Multiflow time-reference cell (refer to TS 25.211, sub-clause 7.7.1).
>Non-time Reference			INTEGER (0..30,…)	Unit: chip Range: 0..7680 chips Step: 256 chips This IE indicates that the cell is a non-time reference cell. The value corresponds to the smallest TTX_diff value of the time reference cell (refer to TS25.211, sub-clause 7.7.1) and is used to calculate the HS-DPCCH to UL DPCCH timing difference in the non-time reference cell (refer to TS 25.211, sub-caluse 7.7.2).

9.2.2.158 UL MIMO Reconfiguration

The UL MIMO Reconfiguration IE is used for the reconfiguration of the UL MIMO operation in a UE context.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
CHOICE Setup, Configuration Change or Removal of UL MIMO		1
>Setup				Used when UL MIMO is not configured in the current UE Context.
>>UL MIMO Information	M		9.2.2.159
>Configuration Change				Used when the existing UL MIMO configuration in the current UE context is modified.
>>UL MIMO Information To Modify	M		9.2.2.160
>Removal				Used when the existing UL MIMO configuration in the current UE context is removed.
>>UL MIMO Information Removal	M		9.2.2.161

9.2.2.159 UL MIMO Information

The UL MIMO Information IE defines the parameters used for UL MIMO operation.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
E-ROCH Power Offset	O		9.2.2.163
S-E-DPCCH Power Offset	M		9.2.2.164
Inter-stream Interference Compensation Index	M		9.2.2.165
Minimum E-TFCI for rank 2 transmissions	M		INTEGER (0..127)	For the concept of "Minimum TB size for rank 2 transmissions" see TS 25.321 [32] and TS 25.331 [18].

9.2.2.160 UL MIMO Information To Modify

The UL MIMO Information To Modify IE is used for modification of UL MIMO information in a UE Context.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
E-ROCH Power Offset	O		9.2.2.163
S-E-DPCCH Power Offset	O		9.2.2.164	According to _S-E-DPCCH mapping in TS 25.213 [9] subclause 4.2.1.5.
Inter-stream Interference Compensation Index	O		9.2.2.165
Minimum E-TFCI for rank 2 transmissions	O		INTEGER (0..127)	For the concept of "Minimum TB size for rank 2 transmissions" see TS 25.321 [32] and TS 25.331 [18].

9.2.2.161 UL MIMO Information Removal

The UL MIMO Information Removal IE is used for removal of UL MIMO information in a UE Context.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
UL MIMO Information Removal	M		ENUMERATED (Remove, …)

9.2.2.162 UL MIMO DL Control Channel Information

UL MIMO DL Control Information contains the Node B allocation of the UL MIMO specific DL control channels. Secondary Transport Block E-HICH Signature Sequence is used to acknowledge the secondary transport block transmitted in the uplink, and it uses the same channelization code as the E-HICH used for non-MIMO and primary transport block acknowledgements. E-ROCH Channelization Code is selected from the pool allocated for E-AGCH codes.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
E-ROCH Channelization Code	O		FDD DL Channelisation Code Number 9.2.2.14	Should be present for the serving E-DCH cell only.
Secondary Transport Block E-RNTI	O		E-RNTI 9.2.1.75	E-ROCH S-E-RNTI as defined in TS 25.212 [8] subclause 4.10A.
Secondary Transport Block E-HICH Signature Sequence	O		INTEGER (0..maxnoofSigSeqE-RGHICH – 1)	One Secondary TB E-HICH signature sequence should be present at least for the serving E-DCH cell.
Secondary Transport Block E-HICH Release Indicator	O		9.2.2.166

Range Bound	Explanation
maxnoofSigSeqE-RGHICH	Maximum number of Signature Sequences for E-RGCH/E-HICH.

9.2.2.163 E-ROCH Power Offset

The E-ROCH Power Offset IE indicates the power offset relative to the pilot bits.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

E-ROCH Power Offset

INTEGER (0…255,…)

Unit: dB

Range: -32 .. +31.75 dB

Step: 0.25 dB

9.2.2.164 S-E-DPCCH Power Offset

The S-E-DPCCH Power Offset is used to calculate the S-E-DPCCH gain factor _sec as defined in TS 25.214 [10], whereas _sec is related to the power difference between DPCCH and S-E-DPCCH.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
S-E-DPCCH Power Offset	M		INTEGER (0..17,…)	According to _S-E-DPCCH mapping in TS 25.213 [9] subclause 4.2.1.5.

9.2.2.165 Inter-stream Interference Compensation Index

The Inter-stream Interference Compensation Index IE indicates an offset that a UE applies while performig the E-TFC selection for the primary stream.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Inter-stream Interference Compensation Index	M		INTEGER (0..15,…)	According to _ISImapping in TS 25.213 [9] subclause 4.2.1.3.

9.2.2.166 Secondary Transport Block E-HICH Release Indicator

Indicates the release of the Uplink MIMO transmission’s Secondary Transport Block E-HICH.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Secondary Transport Block E-HICH Release Indicator	M		ENUMERATED (Secondary Transport Block E-HICH released)

9.2.2.167 Precoder weight set restriction

This parameter defines the preferred precoding weight set restriction configuration as defined in TS 25.214 [10].

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Precoder weight set restriction

BIT STRING (SIZE(64))

Each bit indicates whether a code in the Codebook is supported or not. The value 1 of a bit indicates that the corresponding code in the codebook is supported and value 0 indicates that the corresponding code in the Codebook is not supported.

Note:Bit mapping is as defned in TS 25.331 [16]. If the bit has no corresponding code in the Codebook, it is set to 0.

9.2.2.168 Multiflow Repetition Factors

The Multiflow Repetition Factors IE is used to indicate repetition factors for the HS-DPCCH.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Assisting CQI Repetition Factor

CQI Repetition Factor

9.2.2.24c

In the intra-Node B Multiflow case, if present, this IE provides the Node B with the number of repetitions of the assisting QCI information in the HS-DPCCH [10].

Assisting ACK-NACK Repetition Factor

ACK-NACK Repetition Factor

9.2.2.a

In the intra-Node B Multiflow case, if present, this IE provides the Node B with the number of repetitions of the assisting ACK-NACK information in the HS-DPCCH [10].

9.2.2.169 E-DCH Decoupling Indication

The E-DCH Decoupling Indication IE indicates the role of cell will be changed to Serving E-DCH cell only or Serving HS-DSCH cell only.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
E-DCH Decoupling Indication			ENUMERATED (Serving E-DCH cell only, Serving HS-DSCH cell only, …)	This IE indicates whether the related cell in DRNC is configured to Serving E-DCH cell only or Serving HS-DSCH cell only for E-DCH decoupling operation.

9.2.2.170 DCH Enhancements Information Reconf

The DCH Enhancements Information Reconf IE is used for the reconfiguration of the DCH Enhancements [71] operation in a UE context.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
CHOICE Setup, Configuration Change or Removal of DCH Enhancements
>Setup				Used when DCH Enhancements are not configured in the current UE Context
>>DCH Enhancements Information	M		9.2.2.171
>Configuration Change				Used when the existing DCH Enhancements configuration in the current UE context is modified
>>DCH Enhancements Information to Modify	M		9.2.2.172
>Removal				Used when the existing DCH Enhancements configuration in the current UE context is removed.
>>DCH Enhancements Information Removal	M		9.2.2.173

9.2.2.171 DCH Enhancements Information

The DCH Enhancements Information IE defines the parameters used for DCH Enhancements operation [71].

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
PO2-SRB	M		Power Offset 9.2.2.29	Power boost to be applied to the DL DPDCH under the conditions defined in [10].
DL_FET Mode	M		ENUMERATED (basic, full, …)	Indicates the DCH Enhancements configuration mode, as defined in TS 25.300 [71].
DL DCH Concatenation	C-FET	1..<maxNrOfConcatenatedDCH>		If present, this IE provides the list of DL Transport Channels that are subject to concatenation in the physical layer [9].
>DCH ID	M		9.2.1.16

Condition	Explanation
FET	The IE shall be present if the DL FET Mode IE is set to "full".

Range Bound	Explanation
maxNrOfConcatenatedDCH	Maximum number of concatenated DCHs.

9.2.2.172 DCH Enhancements Information to Modify

The DCH Enhancements Information to Modify IE is used for modification of DCH Enhancements information in a UE Context.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
PO-SRB	O		Power Offset 9.2.2.29	Power boost to be applied to the DL DPDCH under the conditions defined in [10].
DL FET Mode	O		ENUMERATED (basic, full, …)	Indicates the DCH Enhancements configuration mode, as defined in TS 25.300 [71].
DL DCH Concatenation	C-FET	1..<maxNrOfConcatenatedDCH>		If present, this IE provides the list of DL Transport Channels that are subject to concatenation in the physical layer [8].
>DCH ID	M		9.2.1.16

Condition	Explanation
FET	The IE shall be present if the DL FET Mode IE is present and set to "full".

Range Bound	Explanation
maxNrOfConcatenatedDCH	Maximum number of concatenated DCHs.

9.2.2.173 DCH Enhancements Information Removal

The DCH Enhancements Information Removal IE is used for removal of DCH Enhancements information in a UE Context.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
DCH Enhancements Information Removal			ENUMERATED (Remove, …)

9.2.2.174 Gain Factors 10ms Mode

The Gain Factors 10ms Mode IE is used to configure the gain factors in 10ms Transmission Mode [10].

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
CHOICE Gain Factors 10ms
>Signalled Gain Factors 10ms
>>Gain Factor 10ms b_C	M		INTEGER (0..15)	For UL DPCCH in FDD with 10ms Transmission Mode; mapping according to TS 25.213 [21]
>>Gain Factor 10ms b_D	M		INTEGER (0..15)	For UL DPCCH in FDD with 10ms Transmission Mode; mapping according to TS 25.213 [21]
>>Reference TFC nr 10ms	O		INTEGER (0..3)	If this TFC is a reference TFC, this IE indicates the reference number.
>Computed Gain Factors 10ms
>>Reference TFC nr 10ms	M		INTEGER (0..3)	Indicates the reference TFC to be used to calculate the gain factors for this TFC.

9.2.2.175 Extended E-DPCCH Power Offset

The Extended E-DPCCH Power Offset IE is used to calculate the E-DPCCH gain factor _ec as defined in TS 25.214 [10], whereas _ec is related to the power difference between DPCCH and E-DPCCH.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Extended E-DPCCH Power Offset			INTEGER (9..15)	According to mapping in TS 25.213 [21] subclause 4.2.1.3.

9.2.2.176 Radio Links without DPCH/F-DPCH Indication

The Radio Links without DPCH/F-DPCH Indication IE indicates whether to start operation with Radio Links without DPCH/F-DPCH.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Radio Links without DPCH/F-DPCH Information		1..<maxNrOfRLs>
>RL ID	M		9.2.1.49
>Radio Links without DPCH/F-DPCH Operation indicator	M		ENUMERATED (True)	This IE indicates that the E-DCH radio link is setup without transmission of DPCH/F-DPCH.

Range bound	Explanation
maxNrOfRLs	Maximum number of Radio Links for one UE.

9.2.2.177 UL DPCCH2 Reconfiguration

The UL DPCCH2 Reconfiguration IE is used for the reconfiguration of the UL DPCCH2 operation in a UE context.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
CHOICE Setup, Configuration Change or Removal of UL DPCCH2		1
>Setup				Used when UL DPCCH2 is not configured in the current UE Context
>>UL DPCCH2 Information	M		9.2.2.178
>Configuration Change				Used when the existing UL DPCCH2 configuration in the current UE context is modified
>>UL DPCCH2 Information To Modify	M		9.2.2.179
>Removal				Used when the existing UL DPCCH2 configuration in the current UE context is removed.
>>UL DPCCH2 Information Removal	M		9.2.2.180

9.2.2.178 UL DPCCH2 Information

The UL DPCCH2 Information IE defines the parameters used for UL DPCCH2 operation according to ref TS 25.214 [10].

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
F-DPCH info		1		Used when UL DPCCH2 is configured.
>F-DPCH Slot Format	M		9.2.2.85
>FDD DL Channelisation Code Number	M		9.2.2.14
>Extended E-DPCCH Power Offset	O		9.2.2.175

9.2.2.179 UL DPCCH2 Information To Modify

The UL DPCCH2 information To Modify IE is used for modification of UL DPCCH2 information in a UE Context.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
F-DPCH info To Modify		0..1		Used when UL DPCCH2 is configured.
>F-DPCH Slot Format	O		9.2.2.85
>FDD DL Channelisation Code Number	O		9.2.2.14
>Extended E-DPCCH Power Offset	O		9.2.2.175

9.2.2.180 UL DPCCH2 Information Removal

The UL DPCCH2 Information Removal IE is used for removal of UL DPCCH2 information in a UE Context.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
UL DPCCH2 Information Removal			ENUMERATED (Remove, …)

9.2.2.181 CQI Feedback Cycle2 k

The CQI Feedback Cycle2 k IE provides the duration of the CQI feedback cycle.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

CQI Feedback Cycle2 k

ENUMERATED

(v0, v8, v10, v16, v20, v32, v40, v64, v80, v160, …)

Unit ms.

The allowed values for this IE depend on the configured CQI Repetition Factor and the HS-DSCH configuration as defined in TS 25.331 [16].

CQI Feedback Cycle2 k value shall be an integer multiple of the CQI Feedback Cycle k.

9.2.2.182 UE Measurement Forwarding

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Measurement ID

9.2.1.37

When reporting the “UPH Filtering Value”:

Measurement ID 1 indicates Primary UL frequency;

Measurement ID 2 indicates the Secondary UL frequency.

UE Measurement Value

9.2.2.183

9.2.2.183 UE Measurement Value

The UE Measurement Value contains the value to be forwarded.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
CHOICE Dedicated Measurement Value	M
>UPH Filtering Value
>>UPH Filtering Value	M		INTEGER (0..32)	According to mapping in TS 25.321 [41].

9.2.2.184 TTI Update Indication

The TTI Update Indication indicates that the TTI switching has been triggered and confirmed by the UE.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
CHOICE TTI Update Indication	M
>TTI Update CFN
>>CFN	M		CFN 9.2.1.7
>TTI Update Indicator			NULL

9.2.2.185 Activation Delay

The Activation Delay IE is the same value as the RNC sends to the UE for the TTI swiching by the HS-SCCH Order.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Activation Delay			ENUMERATED (v0, v1, v2, v3, v4, v5,…)	In radio frames. Refer to TS 25.331 [18]

9.2.2.186 Fast TTI switching Mode Supported

The Fast TTI switching Mode Supported indicates which Fast TTI switching mode is supported by the DRNS.

IE/Group Name

Presence

Range

IE Type and Reference

Semantics Description

Fast TTI Switching Support Mode

ENUMERATED

(Mode 1, Mode 2)

9.2.2.187 Fast TTI switching Mode Requested Synchronized

The Fast TTI switching Mode Requested Synchronized indicates which Mode is requested.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
CHOICE Fast TTI switching Mode Synchronized	M
>Mode 1			NULL
>Mode 2
>>CFN	M		CFN 9.2.1.7

9.2.2.188 Fast TTI switching Mode Requested UnSynchronized

The Fast TTI switching Mode Requested UnSynchronized indicates which Mode is requested.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
CHOICE Fast TTI switching Mode Unsynchronized	M
>Mode 1
>>Activation Delay	M		9.2.2.185
>Mode 2
>>CFN	M		CFN 9.2.1.7

9.2.2.189 PLMN Identity

This information element is used to uniquely indicate a PLMN.

IE/Group Name

Presence

Range

IE type and reference

Semantics description

PLMN identity

OCTET STRING (SIZE(3))

– digits 0 to 9, encoded 0000 to 1001,

– 1111 used as filler digit,

two digits per octet,

– bits 4 to 1 of octet n encoding digit 2n-1,

– bits 8 to 5 of octet n encoding digit 2n.

– The PLMN identity consists of 3 digits from MCC followed by either
– a filler digit plus 2 digits from MNC (in case of 2 digit MNC) or
– 3 digits from MNC (in case of a 3 digit MNC).

9.2.2.190 Downlink TPC enhancements Information

The Downlink TPC enhancements Information IE defines the parameters used for Downlink TPC enhancements operation according to ref TS 25.214 [10].

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Decimation factor for primary frequency	O		ENUMERATED (3 slots, 5 slots)
Decimation factor for secondary frequency	O		ENUMERATED (3 slots, 5 slots)

9.2.2.191 Downlink TPC enhancements Reconf

The Downlink TPC enhancements Reconf IE is used for the reconfiguration of the Dowlink TPC enhancements operation in a UE context.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
CHOICE Setup, Configuration Change or Removal of Downlink TPC enhancements		1
>Setup				Used when Downlink TPC enhancements is not configured in the current UE Context
>>Downlink TPC enhancements Information	M		9.2.2.190
>Configuration Change				Used when the existing Downlink TPC enhancements configuration in the current UE context is modified
>>Downlink TPC enhancements Information To Modify	M		Downlink TPC enhancements Information 9.2.2.190
>Removal				Used when the existing Downlink TPC enhancements configuration in the current UE context is removed.
>>Downlink TPC enhancements Information Removal	M		9.2.2.192

9.2.2.192 Downlink TPC enhancements Information Removal

The Downlink TPC enhancements Information Removal IE is used for removal of Downlink TPC enhancements information in a UE Context.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Downlink TPC enhancements Information Removal			ENUMERATED (Remove, …)

9.2.2.193 TPC slot position

The TPC slot position IE is used to configure TPC slot position for power control Algorithm 3.

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
Slot position	O		INTEGER (0..4)

9.2.2.194 Dual Cell E-DCH Operation Enhancements Information

IE/Group Name	Presence	Range	IE Type and Reference	Semantics Description
E-TTI	M		ENUMERATED (2ms, 10ms)
E-DCH Reference E-TFCI Information		0..<maxNrOfRefETFCIs>
> E-DCH Reference E-TFCI	O		INTEGER (0..127)
> E-DCH Reference E-TFCI Power Offset	O		INTEGER (0..31)	According to mapping in ref. TS 25.213 [9] subclause 4.2.1.3
E-DCH E-TFCI Boost Information	O		E-TFCI Boost Information 9.2.2.91
E-DCH E-DPCCH Power Offset	O		E-DPCCH Power Offset 9.2.2.4K
E-DCH E-TFCI Table Index	O		INTEGER (0..1,…, 2..7)
E-DCH Power Offset for Scheduling Info	O		E-DCH Power Offset for Scheduling Info 9.2.1.96
E-DCH Maximum Set of E-DPDCHs			Maximum Set of E-DPDCHs 9.2.2.24e